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Summary of Content
Page 855
Description (Part 1 Of 2)
Page 6648
Valve Body: Service and Repair Inspection and Overhaul
Control Valve Assembly
Disassembly
Page 462
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9014
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2779
Oxygen Sensor: Connector Views
Circuit
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 8958
Diagnostic Procedure 3 (Without Power Door Locks)
Diagnostic Procedure 4 (Driver Side Door Switch Input Signal Check)
Models With Power Door Locks
Diagnostic Procedure 4 (With Power Door Locks)
Models Without Power Door Locks
Diagnostic Procedure 4 (Without Power Door Locks)
Page 7716
Power Steering Pump: Pressure, Vacuum and Temperature Specifications
Pump Maximum Pressure [1]
...................................................................................................................................... 7,649 - 8,238
kPa (1,109 - 1,194 psi)
[1]: When idling.
Page 9299
Type Of Standardized Relays (Part 2 Of 2)
Page 4280
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3560
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5286
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 717
Type Of Standardized Relays (Part 2 Of 2)
Page 5690
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2643
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4424
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8980
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 649
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3996
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4923
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8064
Blower Motor: Service and Repair
REMOVAL
1. Remove the glove box and mating trim. 2. Remove the cooling unit. 3. Disconnect the fan motor
resistor. 4. Disconnect the fan motor. 5. Remove the blower case and motor. 6. Remove the three
bolts and remove the motor from the blower case.
INSTALLATION Installation is basically the reverse order of removal.
^ Recharge the A/C system.
Page 1020
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Diagram Information and Instructions
Vehicle Speed Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2191
- Use the same procedure as mentioned in step 4.
7. If all valve clearances are within specification, install the following parts.
- Rocker cover
- All spark plugs
ADJUSTING
Adjust valve clearance while engine is cold. 1. Turn crankshaft to position cam lobe on camshaft of
valve that must be adjusted upward. 2. Place Tool (A) around camshaft as shown in figure.
3. Rotate Tool (A) so that lifter is pushed down.
Before placing Tool (A), rotate notch toward center of cylinder head (See image), to simplify shim
removal later.
CAUTION: Be careful not to damage cam surface with Tool (A).
4. Place Tool (B) between camshaft and the edge of the valve lifter to retain valve lifter.
CAUTION: Tool (B) must be placed as close to camshaft bracket as possible.
- Be careful not to damage cam surface with Tool (B).
5. Remove Tool (A).
6. Remove adjusting shim using a small screwdriver and a magnetic finger.
Page 5567
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4229
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7732
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4422
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5709
Type Of Standardized Relays (Part 2 Of 2)
Page 3032
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2625
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 4055
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 198
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1181
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 9409
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Locations
Antitheft Relay: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 520
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2752
Optional Splice
Example Diagrams
Page 6700
Page 2225
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3561
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4043
Engine Control Module: Locations
ECCS Component Parts Location
ECCS Component Parts Location
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: Customer Interest MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 548
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 5366
Type Of Standardized Relays (Part 2 Of 2)
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Steering/Suspension - Pull Or Drift Diagnostics
Alignment: Customer Interest Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Page 6080
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6639
Type Of Standardized Relays (Part 2 Of 2)
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Page 3864
Type Of Standardized Relays (Part 2 Of 2)
Page 3839
Description (Part 1 Of 2)
Page 4005
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 101
Page 6074
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6499
Type Of Standardized Relays (Part 2 Of 2)
Page 2456
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 186
Description (Part 1 Of 2)
Page 2829
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2530
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4809
Vehicle Speed Sensor: Description and Operation
COMPONENT DESCRIPTION
The vehicle speed sensor is installed in the transaxle. It contains a pulse generator which provides
a vehicle speed signal to the speedometer. The speedometer then sends a signal to the ECM.
Specifications
Fuel Pressure Regulator: Specifications Fuel Pressure Table
Fuel Pressure Table Pressure taken at idle.
With Vacuum Hose Connected 34 kPa
With Vacuum Hose Disconnected 43 kPa
Page 2011
Page 430
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
A/T - Mandatory Oil Cooler Cleaning
Technical Service Bulletin # 00-056B Date: 021127
A/T - Mandatory Oil Cooler Cleaning
Classification: AT00-001b
Reference: NTB00-056b
Date: November 27, 2002
1988 AND LATER NISSAN VEHICLES AUTOMATIC TRANSMISSION OIL COOLER CLEANING
ATTENTION:
This bulletin supersedes NTB91-099, NTB93-007, NTB94-050, and NTB95-109B, and amends
NTB00-056a. The applied models/model years and information in the Claims Information section of
NTB00-056a was updated. Please discard all paper copies of NTB91-099, NTB93-007,
NTB94-050, NTB95-109B, and earlier versions of NTB00-056.
APPLIED VEHICLES: All 1988 and later with automatic transmission (including the Xtronic CVT
automatic transmission)
SERVICE INFORMATION
Whenever an automatic transmission (A/T) is repaired, overhauled, or replaced, the A/T oil cooler
mounted in the radiator must be inspected and cleaned.
^ Metal debris and friction material, if present, can become trapped in the A/T oil cooler and may
build up as transmission fluid enters the Cooler Inlet.
^ This debris can contaminate the newly serviced transmission.
^ In severe cases this debris can block or restrict the flow of transmission fluid/oil. In either case,
failure of the newly serviced A/T may result.
It will be necessary to back flush the cooler through the Cooler Outlet in order to flush out any built
up debris.
^ The location of the cooler Inlet and Outlet hoses described in this bulletin determines direction of
transmission fluid flow through the cooler.
^ The Inlet and Outlet position varies from model to model, and you must identify the location of the
Cooler Inlet and Outlet to successfully perform the cleaning procedure.
Refer to the SERVICE PROCEDURE Workflow to determine the procedure for a particular vehicle.
^ Use Charts A and B in the service procedure to establish the correct Cooler Inlet and Outlet
location for the vehicle you are servicing.
^ Then perform the Cleaning, Diagnosis, and Inspection as instructed.
Page 8112
When servicing the A/C refrigeration loop, refer to the charts (Figure 2 and 3) to identify the correct
0-ring type. The charts list both NEW and FORMER 0-ring types and illustrates the 0-rings in
full-scale size.
IMPORTANT POINTS
^ There is NO interchangeability between NEW and FORMER connection type 0-rings. Improper
use will cause refrigerant leaks. Therefore, the correct type 0-ring must be used with each
application.
^ Nissan vehicles requiring A/C 0-ring replacement should be checked for proper 0-ring part
numbers through the applicable parts microfiche.
^ Insure correct 0-ring installation onto tube (see Figure 1).
Page 5991
Ignition Coil: Electrical Diagrams
WIRING DIAGRAM
Page 3068
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3262
Ground Distribution
Page 2895
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3638
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9542
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8012
Page 6803
10. Measure starting force "A" at wheel hub bolt.
11. Install lock washer by tightening the lock nut within 15 to 30 degrees.
12. Turn wheel hub several times in both directions to seat wheel bearing correctly.
13. Measure starting force "B" at wheel hub bolt. Refer to step 10. 14. Wheel bearing preload "C"
can be calculated as shown below.
C = B - A Wheel bearing preload "C": 7.06 - 20.99 N (1.59 - 4.72 lbs.)
15. Repeat steps 3 through 14 until correct axial end play and wheel bearing preload are obtained.
16. Tighten screws to 1.2 - 1.8 Nm (10.4 - 15.6 inch lbs.).
17. Install free running hub.
Page 2722
Ground Distribution
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Page 2128
Page 3288
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 857
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4693
Description (Part 1 Of 2)
Page 5741
Ground Distribution
Page 5359
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4529
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Restraints - Seat Belt Retract Slowly
Seat Belt: All Technical Service Bulletins Restraints - Seat Belt Retract Slowly
Classification: RS01-001B
Reference: NTB01-005B
Date: November 12, 2009
"D" RING RESIDUE CAN CAUSE SLOW SEAT BELT RETRACTION
This bulletin amends NTB01-005a. Please discard all previous versions of this bulletin.
APPLIED VEHICLES
IF YOU CONFIRM
Seat belt retraction of front seat belt(s) is slow, caused by "residue" build-up on the "D" ring(s).
ACTION
Use the "D" ring cleaning and refurbishing kit to:
^ Clean the residue off of the "D" rings.
^ Apply fluorine resin tape to the "D" rings.
IMPORTANT:
The purpose of "ACTION" (above) is to give you a quick idea of the work you will be performing.
You MUST closely follow the entire Service Procedure as it contains information that is essential to
successfully completing the repair.
Page 5086
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2449
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5394
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7463
Fuse Block-Fuse Arrangement
Page 8725
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Locations
Ignition Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 3913
NOTES:
^ Rust penetrant is considered a shop supply.
^ Nissan Rust Penetrant can be ordered through the Nissan Direct Ship Chemical Care Product
Program, Website order via link on dealer portal.
^ WD-40 is available from various local sources.
Removal Tool
^ When removing a seized exhaust sensor with a specialty socket (which contains a slit to
accommodate the wiring harness), it may spread open and
strip the sensor.
^ Before this occurs, it is recommended to cut the wiring harness from the sensor and use a box
end wrench or 6-point deep well socket.
1. Clamp the exhaust manifold/catalyst/front tube in a vice.
2. Spray the sensor with the rust penetrant for 2 to 3 seconds.
^ It is important that the spray is directed at the base of the sensor to ensure it penetrates into the
threads.
Page 5492
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Electrical - Starting/Charging/Battery Testing
Battery: Technical Service Bulletins Electrical - Starting/Charging/Battery Testing
Classification: EL99-016V
Reference: NTB99-048V
Date: March 11, 2010
BATTERY / STARTING / CHARGING SYSTEM TESTING
This bulletin has been amended. The Service Information has been updated. Please discard all
earlier versions.
APPLIED VEHICLES: All Nissans including Altima Hybrid HEV* 12 volt battery
*For information on using this tool with Altima Hybrid 12 volt batteries, refer to NTB07-007.
SERVICE INFORMATION
The Midtronics GR-8 - Battery and Electrical Diagnostic Station is the factory-approved battery,
starter, and alternator tester.
^ For warranty documentation purposes, as of September 30, 2008 the GR-8 is the only approved
diagnostic tool for batteries, starters, and alternators.
^ Print-outs from this tester are required for claim reimbursements related to batteries, starters,
and/or alternators.
^ For additional information regarding claims reimbursements, refer to the current Nissan
Assurance Products Resource Manual.
^ For the complete GR-8 User Guide, refer to ASIST - TOOLS & EQUIPMENT.
^ Additional tools and replacement parts can be ordered from TECH-MATE.
^ This essential tool was shipped to your dealership and invoiced to your Nissan Non-Vehicle
account in three equal installments of $641.00 (plus
applicable taxes) in accordance with your dealer agreement with Nissan North America, Inc. This
price includes both the GR8-1200-NI and the EXP-800-NI shipped in April 2008.
Nissan vehicles equipped with standard lead/acid batteries use one of two different types with
unique battery rating specifications: JIS & CCA.
Diagram Information and Instructions
Audible Warning Device: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6482
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 712
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 881
Vehicle Speed Sensor: Connector Views
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor (VSS) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8731
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6276
Optional Splice
Example Diagrams
Page 2279
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6354
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8809
The table provides a brief description of some types of paint contamination you may encounter.
Select a 2' x 2' test section to perform the following Contamination Test Removal.
C. RE-Wash
C. Re-Wash with detergent and water solution, keeping it wet for 4-5 minutes. To avoid scratching
the finish, do not rub, gently move the solution around with light pressure. Do not allow the solution
to dry before rinsing. Use, clean warm water and a clean terry cloth towel. Frequently rinse off the
terry cloth towel to avoid scratches from entrapped dirt. Replace the towel with a clean one once it
becomes soiled. Rinse with a spray of clean water. Repeat up to four times.
D. Clean
D. Clean with Nissan Bug and Tar remover using a clean terry cloth towel and gentle pressure.
Repeat up to four times.
E. Applying Finish Kare
E. Apply Finish Kare to remove iron particles and acids. See procedure below:
Caution:
Attempting to buff iron particles will cause severe scratching.
1. Apply Finish Kare # 1119, solution, keeping it wet for 4-5 minutes. To avoid scratching the finish,
do not rub, gently move the solution around with light pressure. Do not allow the solution to dry
before rinsing.
2. After the wash and rinse, gently dry the contaminated surfaces with the terry cloth towels to
remove the majority of the water. Use gentle pressure
Page 568
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3098
Description (Part 1 Of 2)
Page 2721
Ground Distribution
Page 720
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 5242
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Vehicle Speed Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5883
Description (Part 1 Of 2)
Page 4223
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3724
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5498
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2275
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1223
Air Bag Deactivation Switch: Description and Operation
Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
The vehicle is equipped with a passenger air bag deactivation switch which can be operated by the
customer. When the switch is turned to the ON position, the passenger air bag is enabled and
could inflate in a frontal collision. When the switch is turned to the OFF position, the passenger air
bag is disabled and will not inflate in a frontal collision.
After turning the ignition switch ON, a passenger air bag deactivation switch indicator illuminates on
the instrument panel for bulb check. The indicator will stay lit if the passenger air bag deactivation
switch is in the OFF position. If the passenger air bag deactivation switch is in the ON position, the
indicator will turn off after about 7 seconds.
After SRS maintenance or repair, make sure the passenger air bag deactivation switch is in the
same position (ON or OFF) as when the vehicle arrived for service.
Activation / Deactivation Passenger Air Bag
If the passenger air bag deactivation switch indicator operation does not correspond to ON/OFF
operation of the passenger air bag deactivation switch, perform self-diagnoses for SRS and repair
according to the self-diagnostic failure. Refer to "SRS Operation Check".
If no self-diagnostic failure is detected, replace the passenger air bag deactivation switch including
the key cylinder.
Page 8299
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Indicator
Passenger Air Bag Deactivation Switch Indicator
REMOVAL
Passenger Air Bag Module Deactivation Switch Indicator
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes
1. Remove meter cover. 2. Release passenger air bag deactivation switch indicator tabs from back
side of meter cover. 3. Remove passenger air bag deactivation switch indicator from front side of
meter cover.
INSTALLATION
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 3115
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Engine Coolant - Special Refilling Tool
Coolant: Technical Service Bulletins Engine Coolant - Special Refilling Tool
Classification: TE02-001a
Reference: NTB02-011a
Date: March 11, 2002
ESSENTIAL TOOL: ENGINE COOLANT REFILL TOOL
This bulletin amends NTB02-011. This version has the addition of a Service Procedure. Please
discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
If for any reason the vehicle's cooling system needs to be filled with coolant due to a service repair
or maintenance, use the Coolant Refill Tool # J-45695.
^ Using this tool properly will ensure complete filling without trapped air bubbles in the cooling
system.
^ Air pockets in the cooling system can cause:
A) Overheating
B) Poor heater performance
C) Gurgling noise from the heater core
To ensure the tool is used correctly, refer to the Operating Instructions supplied with the tool and
the Service Procedure in this Bulletin.
Locations
Page 9435
EL-TAIL/L-02 Parking, License, And Tail Lamps Wiring Diagram (Part 2 Of 2)
Circuit Diagrams
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Page 1165
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2993
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5036
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Description and Operation
Electronic Brake Control Module: Description and Operation
CONTROL UNIT (Built-In ABS Actuator And Electric Unit)
The control unit computes the wheel rotating speed by the signal current sent from the sensor.
Then it supplies a DC current to the actuator solenoid valve. It also controls ON-OFF operation of
the valve relay and motor relay. If any electrical malfunction should be detected in the system, the
control unit causes the warning lamp to light up. In this condition, the ABS will be deactivated by
the control unit, and the vehicle's brake system reverts to normal operation.
Page 3016
Control Units/Module
F29 Control Units/Module
Instruments - Fuel Gauge Inaccurate
Speedometer Module: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 191
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2586
Type Of Standardized Relays (Part 2 Of 2)
Page 3275
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 5811
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5743
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7161
Brake Rotor/Disc: Specifications Service Specifications
Brake Rotor/Disc: Specifications
Minimum Thickness .............................................................................................................................
..................................................... 0.945 in. (24 mm)
Maximum Runout ................................................................................................................................
................................................. 0.0028 in. (0.07 mm)
Maximum Thickness Variation
........................................................................................................................................................
0.0008 in. (0.0203 mm)
Outer Diameter ....................................................................................................................................
................................................. 10.9 in. (276.86 mm)
Thickness (New) ..................................................................................................................................
.................................................. 1.02 in. (25.908 mm
Page 2575
Ground Distribution
Page 7778
12. Remove rear housing bolts. 13. Remove rear housing together with worm gear assembly.
CAUTION: Worm gear assembly cannot be disassembled. When it is removed, be careful not to
disengage worm gear from shaft or allow it to drop.
14. Remove teflon ring and O-ring of worm gear assembly.
Assembly
STEERING GEAR MODEL PB59K
1. Apply a thin coat of ATF to O-ring and install new O-ring on worm gear assembly.
Page 434
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4793
Ground Distribution
Diagram Information and Instructions
Idle Speed/Throttle Actuator - Electronic: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4282
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 474
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 6651
a. Place oil circuit of upper body face up. Install steel balls in their proper positions.
b. Install reamer bolts from bottom of upper body.
c. Place oil circuit of lower body face up. Install orifice check spring, orifice check valve.
D: mm (inch) 2.0 (0.079)
d. Install separator plate on lower body. e. Temporarily install support plates, side plate (with steel
ball) and tube brackets.
Page 289
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3045
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 966
Optional Splice
Example Diagrams
Page 1094
Ground Distribution
Page 6481
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5626
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7142
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Page 5105
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Spark Plug Torque Values
Spark Plug: Specifications Torque
Torque
Spark plug torque 14-22 ft. lb
Page 4549
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8538
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process. The side marker/tail/license lamps and
interior illumination will flash twice when this step is accurately completed.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming.
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
of the remote controllers you have programmed.
Page 4616
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8460
Seat Belt Retractor: Testing and Inspection Seat Belt Retractor Off-Vehicle Check
1. Remove the seat belt retractor assembly.
Off Vehicle Check Seat Belt Retractor
2. Slowly pull out belt while tilting the retractor assembly forward from the mounted position without
twisting the retractor assembly as shown in the
illustration.
15 degrees or less tilt: Belt can be pulled out. 35 degrees or more tilt: Belt locks and cannot be
pulled out.
If NG, replace the retractor assembly.
Paint - Spotting Prevention & Repair
Paint: Customer Interest Paint - Spotting Prevention & Repair
Classification: BF87-030
Reference: TS87-145
Date: September 28, 1987
PAINT SPOTTING REPAIR PROCEDURE
APPLIED VEHICLE(S): All Models
SERVICE INFORMATION
Paint spotting incidents occurring in the U.S. market are not unique to Nissan, but are being
experienced by all manufacturers. To date, two separate types of paint spotting incidents have
been identified as follows:
1. Particulate Fallout - Tiny solid particles which collect on horizontal panels, causing a dark stain
which will penetrate into the paint if not cleaned.
2. Water Spotting - A ringlet or multiple water-drop-shaped light discoloration on dark painted
horizontal panels.
THESE TYPES OF SPOTTING ARE NOT DUE TO PAINT DEFICIENCY, AND CAN BE
PREVENTED THROUGH PROPER CARE.
SERVICE PROCEDURE
Particulate Fallout
Ash, dust, soot and other tiny solid particulate matter from industrial and other sources can be
carried many miles. Particulate fallout is most noticeable on the horizontal surfaces (hood, luggage
compartment lid, and roof) of the vehicle.
If left on a moist, painted surface, the particles will slowly dissolve and bond to the paint, frequently
leaving a red stain. This stain can be present even on plastic surfaces such as bumpers if the
fallout has an iron content. These spots may be visible on both solid and metallic paints (especially
light colors). The particulate can be felt as a sharp point on the paint surface. When viewed through
a magnifying lens, the staining may be evident.
VEHICLE CARE
Every 10 days, or more frequently depending upon local conditions, particulate fallout must be
washed off with mild detergent and water to prevent its bonding and staining action. A good
carnuba wax coating can help protect against damage from particulate fallout.
PARTICULATE FALLOUT REPAIR PROCEDURE
In most cases, thoroughly washing the affected area with a water and mild detergent solution (to
avoid scratching the finish with dislodged particles) will remove the particulates.
After washing the vehicle, a stain, generally orange or red, may still be visible on white or other
light colored vehicles. This stain can be removed with a fine compound material. DO NOT APPLY
THE COMPOUNDING MATERIAL BEFORE ALL PARTICLES IN THE AFFECTED AREA ARE
REMOVED BY THOROUGH WASHING.
Water Spotting
A photograph of typical water spotting is shown on page 26 of the Nissan Paint Refinishing Guide*
(PIN 5REFGD). The spots are most visible when viewed at an angle, usually under fluorescent
light. The paint surface is usually smooth to the touch because the spotting is a change in the top
surface itself. This is not hard-water residue which will wash off with soap and water. These spots
are visible on both solid and metallic paints with dark colors.
VEHICLE CARE
When a vehicle is stored outside and unprotected, dust patterns develop on the painted surfaces.
These patterns guide moisture droplets from a light rain or morning dew to the same location each
time. The strong sunlight, repeatedly concentrated on these water droplets, greatly contributes to
the spotting. When storing a vehicle unprotected, where the painted surface is repeatedly exposed
to a combination of sunlight and light rain (or morning dew), the vehicle MUST be washed AND
thoroughly dried at least every two weeks, or more frequently if there is light rain or dew followed
by strong sunlight.
Page 9086
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 8789
When washing any vehicle, it must be out of direct sunlight and the painted surfaces should be cool
to the touch.
WATER SPOTTING REPAIR PROCEDURE
The method of repairing a water spotted finish varies with the severity (depth of spot in finish) of the
spotting. After a thorough washing, perform the following:
1. Water spots on light colored vehicles and some vehicles which have had minimal exposure to
the elements can be repaired by buffing. First, apply a fine cutting compound using an orbital buffer
to remove a thin layer of the top coat or clear coat. After removal of the spots, buff with glazing
compound to remove the fine scratches.
2. More severe spotting can be removed with a coarser cutting compound followed by finer
compound and glazing compound to remove the scratches.
3. The most severe water spots on clear coated, dark vehicles can be repaired by wet sanding the
affected areas with 1200 grit sandpaper to prepare the surface then spraying a fresh clear coat on
those areas. Non-clear coated vehicles should be repairable with either step 1 or 2.
* Available through Dyment Distribution Services.
Page 679
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor
COMPONENT DESCRIPTION
The rear heated oxygen sensor (rear HO2S), after three way catalyst, monitors the oxygen level in
the exhaust gas. Even if switching characteristics of the front heated oxygen sensor are shifted, the
air fuel ratio is controlled to stoichiometric by the signal from the rear heated oxygen sensor. This
sensor is made of ceramic zirconia. The zirconia generates voltage from approximately 1V in richer
conditions to 0V in leaner conditions. Under normal conditions the rear heated oxygen sensor is not
used for engine control operation.
Page 4059
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3250
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5865
Ground Distribution
Page 895
Description (Part 1 Of 2)
Page 5389
Optional Splice
Example Diagrams
Page 5869
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6111
Optional Splice
Example Diagrams
Page 2659
Type Of Standardized Relays (Part 2 Of 2)
Page 2887
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Locations
Fusible Link: Locations
Component Parts And Harness Connector Location
Page 1092
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5800
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Service and Repair
Camshaft Gear/Sprocket: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 3034
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9514
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4306
Intake Air Temperature Sensor: Electrical Diagrams
EC-IATS-01 Intake Air Temperature Sensor (DTC: P0110)
Circuit Diagrams
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Page 4031
8. Select the detected VI from the list. (See Figure 1.)
9. Select Connect. (See Figure 1.)
10. Wait for the "Checking the firmware version" message to clear.
11. Select ECM reprogramming / Programming (see Figure 2).
12. Select Select.
Locations
Air Bag Deactivation Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
Passenger Air Bag Deactivation Switch
SRS Component Parts Location
Page 1051
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6560
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6565
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Engine Controls - ECM Programming Interruption
Recovery
Engine Control Module: Technical Service Bulletins Engine Controls - ECM Programming
Interruption Recovery
Classification: EC10-015
Reference: NTB10-078
Date: June 21, 2010
REPROGRAM INTERRUPTION RECOVERY PROCEDURE
SERVICE INFORMATION
A complete step-by-step General Procedure for CONSULT-III (C-III) ECM Reprogram Interruption
Recovery is now available by attachment in this bulletin.
While performing ECM (Engine Control Module) reprogramming, the reprogramming may stop
(become interrupted) before it is 100% complete.
One of two messages may appear:
^ The VI probe is disconnected on USB, please check the connection of the probe.
^ Reprogramming fail, "Error code 0".
In many cases, reprogramming recovery is possible and the ECM may not need to be replaced if
the complete ECM part number has been registered into the ECM before reprogramming stopped.
NOTE:
ECM is referred to as ECU in C-III.
The ECM Reprogram Interruption Recovery General Procedure applies to Technical Service
Bulletins that include ECM reprogramming published in April 2010 and later.
IMPORTANT: BEFORE STARTING REPROGRAMMING
^ Connect a battery charger to the vehicle battery.
^ Be sure to turn OFF all vehicle electrical loads.
^ For ECM reprogramming, the C-III MUST be connected to the VI using the USB cable.
^ Be sure to connect the AC Adapter.
Page 9020
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Locations
Vacuum Pump: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4172
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4711
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6152
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 4419
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5770
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3076
Ground Distribution
Page 8970
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4178
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8932
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2571
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 125
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 790
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4950
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
MIL - Icon Changed to Service Engine Soon
Malfunction Indicator Lamp: Technical Service Bulletins MIL - Icon Changed to Service Engine
Soon
Classification: EC96-011
Reference: NTB96-094
Date: October 2, 1996
MALFUNCTION INDICATOR LIGHT (MIL) CHANGE
APPLIED VEHICLES: All 1997 Vehicles (except 1997.5 Altima)
APPLIED DATES: Various
SERVICE INFORMATION
Beginning with 1997 model year vehicles, the MIL icon in the instrument panel will be changed.
The new icon will read "SERVICE ENGINE SOON".
Page 5742
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4148
Ground Distribution
Page 8943
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 778
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5169
EGR Control Solenoid: Description and Operation
COMPONENT DESCRIPTION
The EGRC-solenoid valve responds to signals from the ECM. When the ECM sends an ON
(ground) signal, the coil in the solenoid valve is energized. The vacuum signal passes through the
solenoid valve. The signal then reaches the EGR valve. When the ECM sends an ON signal, a
plunger will then move to cut the vacuum signal from the throttle body to the EGR valve.
Page 7596
^ Make sure the rear slide plates:
> Do not wobble (no up/down movement).
> Operate (slide) smoothly in all directions.
If there is any issue with the slide plate operation - have the equipment repaired before performing
any alignments.
5. Make sure the lock pins for the front "turn plates" and rear "slide plates" are in place.
NOTE:
Lock pins should remain in place until caster sweep.
The Alignment Process
The Alignment Process
IMPORTANT:
Use only the alignment specifications listed in the appropriate Service Manual when adjusting the
alignment.
1. Make sure the vehicle is straight on the alignment rack.
^ Vehicle must be straight (in line) with the alignment rack before entering the rack as shown in
Figure 4.
^ Do not straighten the vehicle while on the rack (see Figure 5).
^ If the vehicle needs to be straightened, exit the alignment rack, straighten the vehicle and then
re-enter the rack.
^ Once the vehicle is straight on the rack, do not turn/center the steering wheel-keep the front
wheels straight.
Page 3818
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4019
Page 3456
Type Of Standardized Relays (Part 2 Of 2)
Page 2848
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 991
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5192
Ground Distribution
Page 4189
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7818
- Press out upper link bushings.
INSPECTION
- Check adjusting bolts and rubber bushings for damage. Replace if necessary.
- Check upper link for deformation and cracks. Replace if necessary.
ASSEMBLY
1. Apply soapsuds to rubber bushing.
2. Press upper link bushing.
- Press bushing so that the flange of bushing securely contacts the end surface of the upper link
collar.
Page 7661
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Page 843
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 7411
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 3691
Page 4284
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5300
Fuel Pressure: Testing and Inspection
NOTE:
- When reconnecting fuel line, always use new clamps.
- Make sure that clamp screw does not contact adjacent parts.
- Use a torque driver to tighten clamps.
- Use Pressure Gauge to check fuel pressure.
- Do not perform fuel pressure check with system operating. Fuel pressure gauge may indicate
false readings.
1. Release fuel pressure to zero. 2. Disconnect fuel hose between fuel filter and fuel tube (engine
side).
3. Install pressure gauge between fuel filter and fuel tube. 4. Start engine and check for fuel
leakage.
5. Read the indication of fuel pressure gauge.
At idling:
With vacuum hose connected
Approximately 235 kPa (2.4 kg/cm.sq, 34 psi)
With vacuum hose disconnected
Approximately 294 kPa (3.0 kg/cm.sq, 43 psi)
If results are unsatisfactory, perform "Fuel Pressure Regulator Check".
Page 4636
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4897
4. Inspect the inside diameter of the solenoid bracket metal pipe (from EVAP canister) for
contamination or rust (see Figure 1).
A. If contamination or rust is present, replace the solenoid valve bracket and reconnect the vacuum
hoses.
B. If contamination or rust is not present, reconnect the vacuum hose and use the appropriate
section of the applicable service manual to diagnose
and repair the vehicle.
5. Ensure the wire harness connector and all hoses are properly connected to the purge volume
control valve.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the following claims coding:
For DTC P1440
OR
For DTC P1444
OR
For DTC P1491
Page 547
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 6121
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5015
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 6091
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 716
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5249
EGR Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2359
Sunroof - Headliner Squeak Noises
Sunroof / Moonroof: All Technical Service Bulletins Sunroof - Headliner Squeak Noises
Classification: BT98-003
Reference: NTB98-040
Date: June 1, 1998
1998 FRONTIER SQUEAK NOISE IN HEADLINER NEAR SUNROOF
APPLIED VEHICLE: All 1998 Frontier (D22) - sunroof models only
SERVICE INFORMATION If a 1998 Frontier exhibits a "scratchy" type of squeak noise in the
headliner around the edges of the sunroof, the cause may be the headliner panel rubbing on the
vehicle body.
Use the following procedure to resolve the incident:
SERVICE PROCEDURE
1. Remove the sunroof panel as follows:
A. Remove the sunroof shade panel by turning the securing knobs counterclockwise and pulling
the panel down and towards the rear of the vehicle to release (see Figure 1).
B. Disconnect the sunroof handle from the sunroof handle latch by depressing the two release
buttons on the handle latch while pushing up on the sunroof panel (see Figure 2).
Page 601
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2272
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4080
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3567
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 5522
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2610
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 714
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 9143
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5103
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4231
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Specifications
Acceleration/Deceleration Sensor: Specifications
TIGHTENING SPECIFICATIONS
G Sensor .............................................................................................................................................
........................ 4.4 - 5.8 Nm (39.1 - 51.2 inch lbs.)
Page 5282
Ground Distribution
Page 6004
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3087
Leak Detection Sensor: Electrical Diagrams
EC-PRE/SE-01 Evaporation Emission Control System Pressure Sensor (EVAP) (DTC: P0450)
WIRING DIAGRAM
Page 1476
Idle Speed: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 2528
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7585
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
Service and Repair
Camshaft Gear/Sprocket: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
MIL - Icon Changed to Service Engine Soon
Malfunction Indicator Lamp: Technical Service Bulletins MIL - Icon Changed to Service Engine
Soon
Classification: EC96-011
Reference: NTB96-094
Date: October 2, 1996
MALFUNCTION INDICATOR LIGHT (MIL) CHANGE
APPLIED VEHICLES: All 1997 Vehicles (except 1997.5 Altima)
APPLIED DATES: Various
SERVICE INFORMATION
Beginning with 1997 model year vehicles, the MIL icon in the instrument panel will be changed.
The new icon will read "SERVICE ENGINE SOON".
Page 2574
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1961
- Use the same procedure as mentioned in step 4.
7. If all valve clearances are within specification, install the following parts.
- Rocker cover
- All spark plugs
ADJUSTING
Adjust valve clearance while engine is cold. 1. Turn crankshaft to position cam lobe on camshaft of
valve that must be adjusted upward. 2. Place Tool (A) around camshaft as shown in figure.
3. Rotate Tool (A) so that lifter is pushed down.
Before placing Tool (A), rotate notch toward center of cylinder head (See image), to simplify shim
removal later.
CAUTION: Be careful not to damage cam surface with Tool (A).
4. Place Tool (B) between camshaft and the edge of the valve lifter to retain valve lifter.
CAUTION: Tool (B) must be placed as close to camshaft bracket as possible.
- Be careful not to damage cam surface with Tool (B).
5. Remove Tool (A).
6. Remove adjusting shim using a small screwdriver and a magnetic finger.
Page 7621
b. Apply the above two values to the chart and determine point "A". c. The coordinate (or
graduation) indicates that both the front and rear adjusting bolts must be turned outward by 3
graduations. d. Turn the adjusting bolts by the amount corresponding with the 3 graduations.
TOE IN
WARNING: ALWAYS PERFORM THE FOLLOWING PROCEDURE ON A FLAT SURFACE.
MAKE SURE THAT NO ONE IS IN FRONT OF THE VEHICLE BEFORE PUSHING IT.
Measure toe-in using the following procedure.
1. Bounce front of vehicle up and down to stabilize the posture.
2. Push the vehicle straight ahead about 5 m (16 ft.).
3. Put a mark on base line of the tread (rear side) of both tires at the same height of hub center.
This mark is a measuring point.
4. Measure distance "A" (rear side).
5. Push the vehicle slowly ahead to rotate the wheels 180° (1/2 turn). If the wheels have rotated
more than 180° (1/2 turn), try the above procedure
again from the beginning. Never push vehicle backward.
6. Measure distance "B" (front side).
Total toe-in: Refer to Specification Table.
7. Adjust toe-in by varying the length of both steering tie rods.
a. Loosen clamp bolts or lock nuts. b. Adjust toe-in by turning both the left and right tie rod tubes
equal amounts.
Page 771
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2260
2. Check for leakage.
Page 1191
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 739
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3843
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 979
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3621
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1083
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Keyless Entry - Remote Programming
Technical Service Bulletin # 99-036A Date: 000510
Keyless Entry - Remote Programming
Classification: EL99-001A
Reference: NTB99-036A
Date: May 10, 2000
NISSAN KEYLESS REMOTE ENTRY PROGRAMMING
This amended version of NTB99-036 updates the Applied Vehicle, Service Information, and
Service This amended Procedure Sections. Please discard all paper copies of NTB99-036
APPLIED VEHICLES: 1998-00 Altima (L30) 1998-00 Frontier (D22) 1998-99 Maxima (A32) 2000
Maxima (A33)
1998-00 Pathfinder (R50) 1998-99 Sentra (B14) 2000
Sentra (B15)
1999-00 Quest (V41) 2000
Xterra (WD22)
SERVICE INFORMATION
If a remote switch assembly (remote controller) for an Applied Nissan vehicle does not operate or
operates intermittently, it may need to be re-programmed.
Use the following procedure to program the remote controller.
NOTE:
Not all trim level variations of a given vehicle include the remote controller function. Review the
vehicle sales brochure to determine if the vehicle trim level is equipped with the remote controller
function before starting the programming procedure.
Also confirm that the remote controller(s) being programmed is the correct remote controller for the
vehicle.
NOTE:
A. 1998-99 Altima, Maxima, Pathfinder, Sentra, and Frontier Models, 1999 Quest, and 2000
Frontier Models built before VIN 343314:
If the vehicle has more than one remote controller, the remote controllers must all be programmed
at the same time (a maximum of 4 remotes can be programmed).
B. All 2000 Altima, Maxima, Pathfinder, Sentra, Quest, Xterra, Frontier Crew Cab and Desert
Runner Models, and Frontier Models built after VIN 343314:
If the vehicle has more than one remote controller, the oldest ID code is erased when programming
a new remote when there are already 4 ID codes in memory.
If there are less than 4 ID codes stored in memory, then the new ID code is added and no ID codes
are erased, unless a new remote is programmed after filling all 4 memory positions. A maximum of
4 remotes can be programmed.
NOTE:
Regarding 2000 Maxima, Pathfinder, and Sentra vehicles:
You may use CONSULT-II to program remotes for these vehicles. Refer to the appropriate
Electronic Service Manual (ESM) for further information. You may also program these vehicle
remotes using the Service Procedure provided below.
CLAIMS INFORMATION
^ Re-programming of an otherwise functional remote controller is not covered by warranty.
Page 1899
Connecting Rod Bearing: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Page 2619
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4151
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7424
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 7476
Engine Compartment
Engine Compartment
Page 3266
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5170
EGR Control Solenoid: Testing and Inspection
COMPONENT INSPECTION EGRC-Solenoid Valve
Check air passage continuity.
With CONSULT
Perform "EGRC SOLENOID VALVE" in "ACTIVE TEST".
OR
Without CONSULT
If NG or operation takes more than 1 second, replace EGRC-solenoid valve.
A/C - New Connections & O-Rings
A/C Coupler O-ring: All Technical Service Bulletins A/C - New Connections & O-Rings
Classification: HA97-O12
Reference: NTB98-005
Date: February 1, 1998
NEW A/C CONNECTION 0-RINGS
APPLIED VEHICLES: All Nissan (except Quest)
SERVICE INFORMATION
This service bulletin identifies differences in A/C 0-rings as they apply to the NEW and FORMER
type A/C connections.
The NEW type connection has a groove in the tube end in which the 0-ring is seated. The
FORMER type connection does not have a groove but instead has an inflated portion on the tube
end to support the 0-ring. Refer to Figure 1 for illustrations identifying each connection type.
Page 4854
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Page 7249
INSPECTION
- Check master cylinder inner wall for pin holes or scratches. Replace if damaged.
ASSEMBLY
1. Insert secondary piston assembly. Then insert primary piston assembly.
- Pay attention to direction of piston cups in figure. Also, insert pistons squarely to avoid scratches
on cylinder bore.
2. Install stopper cap.
- Before installing stopper cap, ensure that claws are bent inward.
3. Push reservoir tank seals into cylinder body. 4. Push reservoir tank into cylinder body.
Page 5345
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9140
Transmission Shift Position Indicator Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2117
7. Install distributor, aligning as shown in Figure 10.
8. Install vacuum hoses, electrical harnesses and connectors.
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 8969
Description (Part 1 Of 2)
Page 873
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6654
a. Use a wire paper clip to push out parallel pins.
b. Remove parallel pins while pressing their corresponding plugs and sleeves.
- Remove plug slowly to prevent internal parts from jumping out.
c. Place mating surface of valve facedown, and remove internal parts.
- If a valve is hard to remove, place valve body facedown and lightly tap it with a soft hammer.
- Be careful not to drop or damage valves and sleeves.
2. Remove valves at retainer plates.
a. Pry out retainer plate with wire paper clip.
Page 4751
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5041
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2420
Locations
Power Door Lock Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4551
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8716
Page 2236
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 8269
10. To ensure proper connection, completely separate the air bag connector, then firmly snap it
back together (see Figure 1).
11. Re-locate the air bag connector and harness to the back side of the knee protector (see Figure
2).
12. Secure a tie wrap around the air bag connector, the harness, and the knee protector, affixing
the air bag connector and harness to the back of the knee protector (see Figure 2).
13. Secure a 2nd tie wrap around the knee protector and one side of the harness loop to provide
additional support (see Figure 2).
NOTE:
Be sure to loop the air bag connector harness when affixing it to the knee protector and allow a
large enough loop in the harness to reduce stress on the connectors (see Figure 2).
14. Re-connect the vehicle battery.
15. Clear the CONSULT code by selecting "AIR BAG SELF-DIAG. CURRENT" and touch
"ERASE".
16. Verify that the air bag light is no longer on.
17. Re-install the glove box assembly.
18. Re-set the radio presets.
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. A claim to Nissan for the repair of this
incident may be denied if the repair is not
Page 9281
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4106
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1266
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 662
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Specifications
Constant Velocity Joint: Specifications
DIMENSIONS
Fixed Joint Axial End Play ...................................................................................................................
.................................................. 1 mm (0.04 inch)
Page 8745
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2564
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4892
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 6296
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1973
Valve Seat: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 5887
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3676
Data Link Connector: Electrical Diagrams
EC-MIL/DL-01 MIL & Data Link Connectors
Circuit Diagrams
MIL & Data Link Connectors
MIL and Data Link Connectors Circuit Connectors
Page 6173
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7720
1. Remove snap ring, then draw drive shaft out.
CAUTION: Be careful not to drop drive shaft.
2. Remove oil seal.
CAUTION: Be careful not to damage front housing.
3. Remove connector.
CAUTION: Be careful not to drop control valve.
ASSEMBLY
Assemble oil pump, noting the following instructions. ^
Make sure O-rings and oil seal are properly installed.
^ Always install new O-rings and oil seal.
^ Be careful of oil seal direction.
^ Cam ring, rotor and vanes must be replaced as a set if necessary.
^ When assembling, coat each part with ATF.
Page 7494
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 2709
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3756
ECM INSPECTION TABLE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 133
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 657
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4671
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2910
Type Of Standardized Relays (Part 2 Of 2)
Page 4856
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 5112
Ground Distribution
Page 6169
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 1693
which will result in contamination, and damage to recovery/recycle equipment.
^ Use equipment designed to meet Society of Automotive engineers (SAE) standards, which
specify R-134a service equipment fitting size (1/2" - 16 ACME), and service hose identification
(black stripe on hose).
^ Adapters to convert from one size fitting to the other must never be used; refrigerant/lubricant
contamination will occur and system failure may result.
^ The use of incorrect equipment will result in refrigerant and/or lubricant contamination, which may
cause A/C system or equipment failure.
^ ACR(4) machine will perform all required service functions (recovery, evacuation, recycle,
recharge).
^ High volume A/C service facilities may benefit from "component" A/C service equipment (vacuum
pump, weight scale, manifold gauge set) to supplement the ACR(4).
Comments regarding recovery/recycling equipment:
^ Be certain to follow the manufacturer's instructions for machine operation and machine
maintenance.
^ Never introduce any refrigerant other than that specified into the machine.
^ Only R-134a containers with a 1/2"-16 ACME can be used to add R-134a to the ACR4
recovery/recycle machine.
^ Periodic maintenance of this equipment is required; follow the manufacturer's recommendations
as described in the equipment instruction manual.
Page 4438
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6294
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 9353
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5950
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 8183
Comments regarding condensers:
^ The parallel flow condenser can be identified by the refrigerant end tanks, and smaller, more
closely spaced center section tubes.
Page 6242
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2692
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6950
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 860
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 277
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4170
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3150
Fuel Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5990
Type Of Standardized Relays (Part 2 Of 2)
Page 2364
Specifications
Page 6381
Without Scan Tools
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Stop the vehicle, turn ignition switch "OFF", wait at least 5 seconds and then turn "ON" (4)
Perform "Diagnostic Test Mode II (Self-diagnostic results)" with ECM.
DIAGNOSTIC PROCEDURE
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Page 112
16. If there are no DTCs, select the "Repair" icon (see Figure 5).
^ If there are any DTCs other than those listed in the accompanying Symptom based TSB,
diagnose, perform repairs, and erase DTCs before continuing.
17. Select the "ECM Reprogram" icon. (See Figure 6.)
Page 1509
Spark Plug: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 6176
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 5917
ECCS Component Parts Location
ECCS Component Parts Location
Page 5898
Ground Distribution
Page 6241
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7338
Battery: Service and Repair Charging the Battery
CAUTION:
- Do not "quick charge" a fully discharged battery.
- Keep the battery away from open flame while it is being charged.
- When connecting the charger, connect the leads first, then turn on the charger. Do not turn on the
charger first, as this may cause a spark.
- If battery electrolyte temperature rises above 60 °C (140 °F) stop charging. Always charge battery
at a temperature below 60 °C (140 °F).
Charging Rates
Amps Time
50 1 hour
25 2 hour
10 5 hour
5 10 hour
Do not charge at more than 50 ampere rate.
NOTE: The ammeter reading on your battery charger will automatically decrease as the battery
charges. This indicates that the voltage of the battery is increasing normally as the state of charge
improves. The charging amps indicated above refer to initial charge rate.
- If, after charging, the specific gravity of any two cells varies more than .050, the battery should be
replaced.
Page 1072
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 9248
Courtesy Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1313
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4740
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2685
Ground Distribution
Page 7034
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2369
Technical Service Bulletin # 09-029 Date: 090421
Engine Controls - CONSULTIII(R) ECM Programming
Classification: EC09-007
Reference: NTB09-029
Date: April 21, 2009
CONSULT-III ECM REPROGRAMMING PROCEDURE
APPLIED VEHICLES: All CONSULT-III (C-III) compatible Nissan vehicles
SERVICE INFORMATION
A complete step-by-step General Procedure for C-III ECM Reprogramming is now available in the
on-line version of this bulletin.
This General Procedure is also available via hyperlink from specific C-III symptom-based Technical
Service Bulletins in ASIST.
CAUTION
Part 1
Updated March 25, 2009
CONSULT-III (C-III) ECM REPROGRAMMING
A symptom based TSB is required before using this procedure.
IMPORTANT: Before starting, make sure:
^ ASIST on the C-III computer has been freshly synchronized (updated).
^ All C-III software updates (if any) have been installed.
NOTE:
The C-III computer automatically gets applicable ECM reprogramming data during ASIST
synchronization.
Page 787
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2112
9. Wipe off the links of the timing chain next to the timing marks on the sprockets. Put paint marks
on the timing chain, matching them with the timing marks on the cam sprockets and idler sprocket
(see Figure 1).
10. Remove cam sprocket bolts, cam sprockets and upper timing chain.
11. Support lower timing chain by using a suitable tool as shown in Figure 2 to avoid chain
tensioner spring from coming out.
NOTE:
This step is only to be applied when the lower cover is not being removed.
12. Remove the idler sprocket.
Removal of Lower Timing Chain
1. Drain coolant by removing the cylinder block drain plug and opening the radiator drain cock
(Refer to MA section of the Service Manual).
2. Drain engine oil.
3. Remove the following parts:
^ Alternator & A/C compressor drive belts.
^ Cooling fan with coupling.
^ Radiator shroud.
4. Remove the A/C compressor and position it to the side. Remove the idler pulley and bracket as
well.
5. Set # 1 piston at TDC on its compression stroke.
6. Remove the distributor.
Page 6041
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1873
Compression Check: Testing and Inspection
MEASUREMENT OF COMPRESSION PRESSURE
1. Warm up engine. 2. Turn ignition switch off. 3. Release fuel pressure. 4. Remove all spark plugs
5. Disconnect distributor center cable
6. Attach a compression tester to No 1 cylinder 7. Depress accelerator pedal fully to keep throttle
valve wide open 8. Crank engine and record highest gauge indication. 9. Repeat the measurement
on each cylinder as shown above.
- Always use a fully-charged battery to obtain specified engine speed.
Compression pressure: kPa (kg/cm2, psi) /rpm
Standard: 1,226 (12.5, 178) /300 Minimum: 1,030 (10.5, 149) /300 Difference limit between
cylinders: 98 (1.0,14) /300
10. If compression in one or more cylinders is low:
a. Pour a small amount of engine oil into cylinders through spark plug holes. b. Retest
compression.
- If adding oil improves cylinder compression, piston rings may be worn or damaged. If so, replace
piston rings after checking piston.
- If pressure stays low, a valve may be sticking or seating improperly. Inspect and repair valve and
valve seat. If valve or valve seat is damaged excessively, replace it.
- If compression stays low in two cylinders that are next to each other: a. The cylinder head gasket
may be leaking, or b. Both cylinders may have valve component damage. Inspect and repair as
necessary.
Page 4676
Type Of Standardized Relays (Part 2 Of 2)
Page 6598
Page 4644
Without CONSULT
1. Remove MAP/BARO switch solenoid valve. 2. Check air passage continuity. 3. If NG or
operation takes more than 1 second, replace solenoid valve.
Page 5156
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3148
Ground Distribution
Page 2866
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7573
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3173
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4304
Type Of Standardized Relays (Part 2 Of 2)
Page 3329
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6192
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3941
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4224
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 25
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2878
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Wheels/Tires - Accessory Wheel Lock
Installation/Removal
Wheel Fastener: Technical Service Bulletins Wheels/Tires - Accessory Wheel Lock
Installation/Removal
Classification: WT09-002
Reference: NTB09-056
Date: July 14, 2009
ACCESSORY WHEEL LOCKS INSTALLATION AND REMOVAL
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Always use hand tools when installing or removing accessory wheel lock nuts.
WARNING:
Do not use power tools to install or remove accessory wheel lock nuts.
Use of an impact wrench or other power tool may cause permanent damage to the wheel lock nut
and/or key.
CLAIMS INFORMATION
Accessory wheel locks, wheel lock keys, or vehicle wheels that are damaged due to improper
installation or removal will not be considered a manufacturer defect and will not be covered under
warranty.
Accessory Wheel Lock Installation / Removal Guidelines
^ For ease of removal, the wheel lock nut should always be the first lug nut removed.
^ If needed, clean threads on lug studs with a wire brush.
^ The wheel lock nut should always be the last lug nut tightened.
^ Always use the special key supplied in the wheel lock set to install and remove the wheel locks.
^ Always tighten the wheel lock nuts using a hand torque wrench to the torque specification in the
Service Manual.
Disclaimer
Locations
Shift Interlock Solenoid: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 9358
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3564
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Testing and Inspection
Refrigerant Pressure Sensor / Switch: Testing and Inspection
Page 5799
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 5946
Type Of Standardized Relays (Part 2 Of 2)
Page 9013
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Vehicle - Flat Towing Guideline
Towing Information: Technical Service Bulletins Vehicle - Flat Towing Guideline
Classification: GI99-001F
Reference: NTB99-020F
Date: August 8, 2008
LIMITATIONS ON FLAT TOWING OF NISSAN VEHICLES
This bulletin has been amended to apply to all current production models. Please discard all earlier
versions.
APPLIED VEHICLES: All Models
APPLIED DATES: 1992-2009
SERVICE INFORMATION
This Bulletin contains important guidelines and limitations concerning towing of Nissan vehicles
with all four wheels on the ground ("flat towing").
CAUTION:
Failure to follow these guidelines can result in severe transmission or drivetrain damage. For all
towing including "emergency towing" procedures refer to the Owners Manual.
1. 4WD/AWD vehicles equipped with Automatic Transmission (including CVT):
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ DO NOT use a tow dolly - doing so will damage drivetrain components.
2. FWD vehicles equipped with Automatic Transmission (including CVT) and Altima Hybrid:
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ An appropriate vehicle tow dolly MUST be placed under the vehicle's front wheels.
^ Always follow the dolly manufacturer's recommendations when using their product.
3. RWD vehicles equipped with Automatic Transmission:
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ An appropriate vehicle tow dolly MUST be placed under the vehicle's rear wheels.
^ Always follow the dolly manufacturer's recommendations when using their product.
4. 2WD/4WD vehicles equipped with a manual transmission:
^ Always flat tow with the manual transmission in Neutral.
^ Always flat tow a manual transmission vehicle facing forward.
^ Maximum speed while flat towing: 60 MPH.
^ After towing for 500 miles, stop. Start and idle the engine with the transmission in Neutral for two
minutes - failure to do so may cause damage to the transmission.
^ For 4WD vehicles, always flat tow with the transfer case in the 2 HI position.
Page 5022
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 2789
EC-RRO2-01 Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Diagrams
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Connectors
Response Monitoring
Page 4622
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8214
Comments regarding leak detector use:
^ Existing R-12 leak detectors currently will not detect R-134a.
^ Many R-134a leak detectors will detect R-12; check with the equipment manufacturer.
^ Always refer to and follow the equipment manufacturers recommendations when operating leak
detectors.
Comments regarding weight scale use:
^ If the scale allows electronic control of the flow of refrigerant through the scale, (i.e. internal
solenoid valves) be certain that the hose fitting size is 1/2"-16 ACME, and that no refrigerant other
than R-134a (along with only specified lubricant) have been used with the scale.
Charging Cylinder
^ The use of a charging cylinder is not recommended because:
^ The refrigerant may be vented into the air from the top valve of cylinder when filling the cylinder
with refrigerant.
^ The accuracy of a charging cylinder is generally less than that of an electronic scale or of quality
recycle/recharge equipment.
Service Procedures
^ The service procedures for R-134a A/C systems are basically the same as for R-12 A/C systems,
however, the following should always be kept in mind:
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose, and
throat. Use only approved recovery/recycling equipment to discharge R-134a systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service work.
^ R-134a and R-12 A/C components are not interchangeable. Cleaning of used (in service)
components for use with another type of refrigerant and/or lubricant is not an acceptable practice,
and may result in A/C system failure.
^ Always use the proper PAG oil when servicing an R-134a A/C system. The Nissan part number
for the appropriate PAG compressor oil can be found on the A/C specification label in the engine
compartment, and also in the Factory Service Manual, and on the label on the compressor. These
oils are only available from your Nissan Parts Department.
^ When leak checking an R-134a system, be certain that you are using a detector which will detect
R-134a.
^ As mentioned previously in this bulletin, the R-134a PAG lubricants absorb moisture; PAG oil
containers and A/C components containing PAG oil must remain tightly sealed until ready for use.
^ Unlike R-12 systems, R-134a systems do not exhibit a "clear sight glass", even when properly
charged. For this reason, the R-134a A/C systems have no sight glass.
^ With R-134a systems it is important to properly control the amount of refrigerant charged into the
system during system charging. A charging machine or weight scale must always be used during
charging for proper charge determination.
^ Questions regarding R-12 or R-134a should be addressed to your Regional Service Staff or the
FIXS Hotline.
Page 3767
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8030
WHEEL HUB AND ROTOR DISC
REPLACEMENT
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub / Service and Repair.
Locations
Turn Signal Relay: Locations
Combination Flasher Unit M45
Main Harness (Part 1 Of 2)
Main Harness Layout
Page 2318
customer should then replace with another set of platinum tip plugs rather than the standard plugs
called out in the owners manual.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the claims coding table shown.
Page 7519
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 9432
Type Of Standardized Relays (Part 2 Of 2)
Page 8586
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1090
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9422
Ground Distribution
Page 4796
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Specifications
Page 1375
^ Apply the brakes as shown.
^ Start the engine to allow brake boost.
^ Turn the engine OFF,
^ Remove all lock pins-front "turn plates" and rear "slide plates".
^ Make sure the bridge plate will not interfere with movement of the turn plate.
Put the bridge plate in the down position.
^ Perform caster sweep by turning the steering wheel from outside the vehicle.
Page 6838
Page 4587
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4460
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1049
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3668
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4117
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5804
Description (Part 1 Of 2)
Page 4361
Description (Part 1 Of 2)
Page 8938
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3063
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Headlight Connector - Replacement
Headlamp: All Technical Service Bulletins Headlight Connector - Replacement
Classification: EL01-005
Reference: NTB01-028
Date: May 15, 2001
HEADLIGHT CONNECTOR REPLACEMENT
APPLIED VEHICLES: All Nissan - except vehicles equipped with Xenon(TM) headlights
SERVICE INFORMATION
Nissan has established replacement headlight connectors and service procedures to replace
damaged connectors on the applied vehicles. If the headlight wire harness connector is damaged,
causing intermittent or improper headlight operation, or the connector otherwise needs
replacement, follow the procedures in this bulletin.
Page 2981
Vehicle Speed Sensor: Locations
Component Parts And Harness Connector Location
Page 8434
PARTS INFORMATION
CLAIMS INFORMATION
SERVICE PROCEDURE
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 2).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 2).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
Page 1584
Use a backup wrench on the low hose when tightening the joint connection nut.
8. Reinstall the clip to the support bracket (see Figure 2). Tighten the clip mounting bolt to 3.8 - 4.5
N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb).
9. Evacuate and recharge the vehicle's A/C system with 0.60 - 0.70 kg (1.32-1.54 lb) of R134a
refrigerant. Refer to page HA-51 of the 1998 Frontier Service Manual for the A/C evacuation and
recharge procedure.
10. Check the A/C low hose for refrigerant leaks. Refer to pages HA-48 through HA-50 of the 1998
Frontier Service Manual for the A/C leak test procedure. If a leak is found, repair as necessary
before proceeding with step 11.
11. Check A/C performance. Refer to page HA-38 of the 1998 Frontier Service Manual for the A/C
performance check procedure.
A. If the A/C performance is within specification, this service procedure is complete.
B. If the A/C performance is not within specification, repair as necessary.
Low Hose Angle Adjustment
1. Loosen the joint connection between the A/C low hose and the mating A/C low pipe by turning
the joint connection nut 1/4 turn counterclockwise (see Figure 4).
CAUTION:
Do not loosen the joint connection nut more than 1/4 turn as refrigerant can escape and the 0-ring
may become damaged. Also, use a backup wrench on the hose when loosening the joint
connection nut.
2. Loosen (but do not remove) the bolt that secures the clip to the support bracket (see Figure 4).
3. Move the A/C low hose so that it is positioned between 0° and 5° relative to the horizontal plane
(see Figure 5).
4. Retighten the clip mounting bolt to 3.8 - 4.5 N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb)
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 773
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Passenger Air Bag Deactivation Switch
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
REMOVAL
Passenger Air Bag Module Deactivation Switch
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector. 3. Remove
instrument stay cover lower center. 4. Remove two screws and remove passenger air bag
deactivation switch.
INSTALLATION
CAUTION: Passenger air bag deactivation switch is keyed for proper installation. Improper
positioning of the switch will result in damage to the switch.
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 621
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 7586
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
Locations
Turn Signal Relay: Locations
Combination Flasher Unit M45
Main Harness (Part 1 Of 2)
Main Harness Layout
Page 8361
12. Pull the seat belt back and forth against the tape-covered "D" ring to make sure that the tape is
firmly applied (see Figure 12).
13. Remove the binder clip from the seat belt.
14. Confirm that the seat belt moves smoothly and quickly through the "D" ring by latching and
unlatching it and allowing it to retract back into the retractor mechanism several times.
15. Repeat steps 1 through 14 of this procedure on the remaining front seat belt.
Page 3526
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4376
Ground Distribution
Page 7125
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Page 1324
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 3036
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7254
Wheel Cylinder: Service and Repair
Wheel Cylinder Overhaul
- Check all internal parts for wear, rust and damage. Replace if necessary.
- Pay attention not to scratch cylinder when installing pistons.
Page 883
Vehicle Speed Sensor: Electrical Diagrams
EC-VSS-01 Vehicle Speed Sensor (VSS) (DTC: P0500)
Circuit Diagrams
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor Circuit (VSS) Connectors
Page 4715
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2151
Engine Controls - ECM Programming Interruption
Recovery
Engine Control Module: Technical Service Bulletins Engine Controls - ECM Programming
Interruption Recovery
Classification: EC10-015
Reference: NTB10-078
Date: June 21, 2010
REPROGRAM INTERRUPTION RECOVERY PROCEDURE
SERVICE INFORMATION
A complete step-by-step General Procedure for CONSULT-III (C-III) ECM Reprogram Interruption
Recovery is now available by attachment in this bulletin.
While performing ECM (Engine Control Module) reprogramming, the reprogramming may stop
(become interrupted) before it is 100% complete.
One of two messages may appear:
^ The VI probe is disconnected on USB, please check the connection of the probe.
^ Reprogramming fail, "Error code 0".
In many cases, reprogramming recovery is possible and the ECM may not need to be replaced if
the complete ECM part number has been registered into the ECM before reprogramming stopped.
NOTE:
ECM is referred to as ECU in C-III.
The ECM Reprogram Interruption Recovery General Procedure applies to Technical Service
Bulletins that include ECM reprogramming published in April 2010 and later.
IMPORTANT: BEFORE STARTING REPROGRAMMING
^ Connect a battery charger to the vehicle battery.
^ Be sure to turn OFF all vehicle electrical loads.
^ For ECM reprogramming, the C-III MUST be connected to the VI using the USB cable.
^ Be sure to connect the AC Adapter.
Page 744
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7133
- Check pistons for uneven surface, chips or cracks. Replace if any of these conditions are
observed.
CAUTION: Piston sliding surface is plated. Do not polish with emery sand paper even if rust or
foreign objects are stuck to sliding surface.
Slide Pin, Pin Bolt And Pin Boot Check for wear, cracks or other damage. Replace if any of these conditions are observed.
Rotor
Runout
1. Check runout using a dial indicator.
Make sure that wheel bearing axial end play is within the specifications before measuring.
2. If the runout is out of specification, machine rotor with on-car brake lathe ("MAD, DL-8700",
"AMMCO 700 and 705" or equivalent.
Thickness
If thickness variation exceeds the specification, machine rotor with on-car brake lathe.
Thickness variation (at least 8 positions): Maximum 0.02 mm (0.0008 inch)
ASSEMBLY
Page 2860
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1196
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 939
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6557
Optional Splice
Example Diagrams
Page 4215
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2131
Overall inspection sequence
Page 4785
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7741
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 804
Optional Splice
Example Diagrams
Page 698
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2453
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3614
Description (Part 1 Of 2)
Page 777
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6314
Page 93
Page 1894
Lifter / Lash Adjuster: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 7719
Power Steering Pump: Service and Repair
PRE-DISASSEMBLY INSPECTION
Disassemble the power steering oil pump only if the following items are found.
^ Oil leak from any point shown in the figure.
^ Deformed or damaged pulley.
^ Poor performance.
INSPECTION
^ If pulley and/or pulley shaft is cracked or deformed, replace it.
^ If fluid leak is found around the pulley shaft, replace the oil seal.
DISASSEMBLY
CAUTION:
^ Parts which can be disassembled are strictly limited. Never disassemble parts other than those
specified.
^ Disassemble in as clean a place as possible.
^ Clean your hands before disassembly.
^ Do not use rags; use nylon cloths or paper towels.
^ When disassembling and reassembling, do not let foreign matter enter or contact the parts.
Page 6094
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7332
Battery: Testing and Inspection Hydrometer Temperature Correction
Hydrometer Temperature Correction
Hydrometer Temperature Correction
^ Use the chart to correct your hydrometer reading according to electrolyte temperature.
Page 6369
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6458
Park Gear: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Automatic Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 5111
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5344
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Front Heated Oxygen Sensor
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor
COMPONENT DESCRIPTION
The front heated oxygen sensor is placed into the exhaust manifold. It detects the amount of
oxygen in the exhaust gas compared to the outside air. The front heated oxygen sensor has a
closed- end tube made of ceramic zirconia. The zirconia generates voltage from approximately 1V
in richer conditions to 0V in leaner conditions. The front heated oxygen sensor signal is sent to the
ECM. The ECM adjusts the injection pulse duration to achieve the ideal air-fuel ratio. The ideal
air-fuel ratio occurs near the radical change from 1V to 0V.
Page 3514
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3042
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Locations
Capacity Specifications
Fluid - A/T: Capacity Specifications
Specified amount .................................................................................................................................
.................................................. 8.75 qts. (7.9 Liters)
Page 1026
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9177
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1423
5. Make sure the targets are mounted correctly.
^ Mount the top claws first.
^ Claws must be flush against the wheel as shown in Figure 13.
^ Target must be flush against the center support as shown in Figure 14.
^ Make sure the targets are positioned with the arrow UP or level.
IMPORTANT:
Page 7950
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Page 420
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Specifications
Compression Check: Specifications
GENERAL ENGINE SPECIFICATIONS
MISCELLANEOUS COMPONENTS
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3545
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 139
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9129
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2581
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9134
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5735
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3132
Optional Splice
Example Diagrams
Page 2672
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4036
21. When the screen in Figure 10 appears, ECM reprogramming is complete.
NOTE:
If you can't print the above screen:
a. Select the Print icon.
b. Select Save.
c. Select OK.
A copy of the screen is now saved in the Toughbook(R) PC.
NOTE:
If you saved a copy of the screen in Figure 10 and need to print it at a later date, you can find it in
the following file location:
At the bottom left corner of the computer screen click on Start.
Page 1435
Alignment: Specifications King Pin Inclination
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
............................................... 10°18' (10.30°) Nominal ......................................................................
......................................................................................................................... 10°48' (10.80°)
Maximum .............................................................................................................................................
................................................ 11°18' (11.30°)
Page 4658
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3070
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4972
Canister Vent Valve: Description and Operation
COMPONENT DESCRIPTION
The EVAP canister vent control valve is located on the EVAP canister and is used to seal the
canister vent. This solenoid (the EVAP canister vent control valve) responds to signals from the
ECM. When the ECM sends an ON signal, the coil in the solenoid valve is energized. A plunger will
then move to seal the canister vent. The ability to seal the vent is necessary for the on board
diagnosis of other evaporative emission control system components. This solenoid valve is used
only for diagnosis, and usually remains opened. When the vent is closed, under normal purge
conditions, the evaporative emission control system is depressurized and allows "EVAP Control
System (Small Leak)" diagnosis.
Page 949
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 403
Absolute Pressure Sensor: Testing and Inspection
COMPONENT INSPECTION Absolute pressure sensor
1. Remove absolute pressure sensor with its harness connector connected. 2. Remove hose from
absolute pressure sensor. 3. Turn ignition switch "ON" and check output voltage between ECM
terminal (45) and engine ground.
The voltage should be 3.2 to 4.8 V.
4. Use pump to apply vacuum of -26.7 kPa (-200 mmHg, -7.87 inHg) to absolute pressure sensor
as shown in figure and check the output voltage.
The voltage should be 1.0 to 1.4 V lower than the value measured in step 3.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -93.3 kPa (-700 mmHg, -27.56 inHg) or pressure over 101.3 kPa
(760 mmHg, 29.92 in Hg).
5. If NG, replace absolute pressure sensor.
Page 5065
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 558
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6265
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 5401
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6947
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2879
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 9093
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 1027
Type Of Standardized Relays (Part 2 Of 2)
Page 3012
Vehicle Speed Sensor: Connector Views
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor (VSS) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 9568
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2572
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6206
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4737
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8648
Disclaimer
Page 5405
Ground Distribution
Page 9557
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1177
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3431
Description (Part 1 Of 2)
Page 3492
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6444
Fluid - A/T: Fluid Type Specifications
Specified type: Continental U.S. and Alaska .......................................................................................
............................................................................... Nissan Matic "D" Canada
.........................................................................................................................................................
Genuine Nissan Automatic Transmission Fluid
NOTE: Dexron III/Mercon or equivalent may also be used. Outside the continental United States
and Alaska contact an Infiniti dealership for more information regarding suitable fluids, including
recommended brand(s) of Dexron III/Mercon Automatic Transmission Fluid.
Front Propeller Shaft
Page 633
Oxygen Sensor: Locations
ECCS Component Parts Location
Page 6558
Description (Part 1 Of 2)
Page 3133
Description (Part 1 Of 2)
Page 7646
Ground Distribution
Page 9198
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8930
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4251
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6356
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Specifications
Page 7143
Brake Pad: Specifications
Pad Minimum Thickness 0.079 in
Page 6756
C. Install the two halves of the collet P/N J-45073-2 around the ABS rotor ring making sure the
lower lip of each collet is slid under the rotor ring (see Figure 2a).
D. Slide the sleeve (P/N J-25852-4) over the two halves of the collet (see Figure 2b).
E. Tighten the forcing screw of the extension tube until the rotor ring is pulled free (see Figure 2c).
Do not use an impact wrench to tighten the forcing screw.
F. Remove the sleeve, collets, extension tube, and rotor ring from the axle shaft.
Brake Backing Plate Removal (with inner axle bearing)
1. Clamp the vehicle's axle shaft (on the wheel studs) in a vise.
NOTE:
Use soft jaws when clamping the wheel studs.
2. Bend down the tabs of the bearing locknut lockwasher with a hammer and punch (see Figure 3).
MIL ON - DTC P0420 Set/Exhaust Rattle
Catalytic Converter: All Technical Service Bulletins MIL ON - DTC P0420 Set/Exhaust Rattle
Classification: EC00-017
Reference: NTB00-058
Date: July 12, 2000
1998 FRONTIER; MIL "ON" WITH DTC P0420 STORED AND/OR EXHAUST RATTLE
APPLIED VEHICLE: 1998
Frontier (D22)
Federal Emissions Specification ONLY
APPLIED VIN: up to 1N6DD26Y9WC347717
APPLIED DATE: up to 2/13/98
APPLIED ENGINE: KA24DE
SERVICE INFORMATION
If an Applied Vehicle has a MIL "ON" with DTC P0420 (Three-Way Catalyst Function) stored in the
ECM and/or exhaust rattle noise, the vehicle may have poor three-way catalyst function. This is
usually the result of misfire. In severe cases, the catalyst structure may collapse resulting in an
exhaust rattle.
When proper diagnosis confirms that the three-way catalyst in an Applied Vehicle requires
replacement, regardless of the root cause, also install platinum tip spark plugs specified in the
Parts Information section. Platinum tip plugs provide enhanced misfire resistance under extreme
driving conditions.
Use the following service procedure to resolve the incident, should it occur.
NOTE:
If the three-way catalyst's honeycomb internal structure has collapsed, the debris will typically be
trapped in the exhaust piping and muffler, causing an exhaust rattle.
SERVICE PROCEDURE
1. Perform Self-Diagnosis using CONSULT-II. Print and attach the Freeze Frame data to the repair
order.
2. If there is a DTC stored in addition to P0420, diagnose and repair the additional DTC(s) first,
using the appropriate Service Manual procedure(s).
3. After diagnosing and repairing the vehicle for the non-P0420 DTC, or if P0420 is the only DTC,
use the appropriate Service Manual to determine the incident cause, and repair it.
NOTE:
Always check the secondary ignition circuit. Check distributor cap for moisture, tracking or other
indicators of insulator degradation that may cause a misfire under load.
4. If diagnosis has determined that replacement of the three-way catalyst is also necessary,
replace it and install four new platinum tip spark plugs from the Parts Information section.
NOTE:
If the catalyst is being replaced, inspect its internal honeycomb structure by looking into each end
of the converter. If the structure has collapsed or deteriorated severely, check the exhaust piping
and muffler for debris. Remove all debris from the exhaust system. Replace the muffler as needed.
5. Make a note in the vehicle maintenance logs and notify the customer that platinum tip spark
plugs have been installed, and that this is an upgrade from that listed in the owners manual. The
maintenance interval for platinum tip spark plugs is 60,000 miles and Nissan recommends that the
Page 1284
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 5288
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2723
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5191
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3027
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6046
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3050
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7618
2. Check outside and inside wheel runout. Refer to illustrations.
3. Check front wheel bearings for looseness.
4. Check front suspension for looseness.
5. Check steering linkage for looseness.
6. Check that front shock absorbers work properly by using the standard bounce test.
7. Measure vehicle height (Unladen): H = A - B mm (inch)
Refer to Specification Table.
a. Exercise the front suspension by bouncing the front of the vehicle 4 or 5 times to ensure that the
vehicle is in a neutral height attitude. b. Measure wheel alignment.
Refer to Specification Table.
c. If wheel alignment is not as specified, adjust vehicle posture.
Refer to Specification Table.
d. Adjust wheel alignment.
Refer to Specification Table.
Page 6587
Torque Converter Clutch Solenoid: Description and Operation
SYSTEM DESCRIPTION
The ECM controls torque converter clutch solenoid valve to cancel the lock-up condition of A/T.
When the solenoid valve is turned on, lock-up is cancelled. When the solenoid valve is turned oft,
A/T lock-up is operational.
Conditions for lock-up cancel: Torque converter clutch solenoid valve is turned "ON" when; Throttle valve is fully closed (during idling or deceleration)
- Engine coolant temperature is below 40° C (104° F)
- Engine is stopped
Conditions for lock-up operation: Under 55 to 63 km/h (34 to 39 MPH) (2/8 throttle on flat road), lock-up does not operate even when
the torque converter clutch solenoid valve is "OFF".
- Over 58 to 66 km/h (36 to 41 MPH) (2/8 throttle on flat road), lock-up should operate because the
torque converter clutch solenoid valve is "OFF". To confirm vehicle lock-up, the torque converter
clutch solenoid valve must be in operation ("ON" during idle and deceleration, and "OFF" during
acceleration) and engine speed should drop. When the accelerator pedal is depressed (less than
2/8) in lock-up, the engine speed should not change abruptly. If there is a big jump in engine
speed, there will be no lock-up.
CONSULT REFERENCE VALUE IN DATA MONITOR MODE
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
ON BOARD DIAGNOSIS LOGIC
DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE
CAUTION: Always drive vehicle at a safe speed.
Specifications
Ignition Coil: Specifications
Primary Resistance Approx. 1.0 ohms at 68 deg F
Secondary Resistance Approx. 10 K ohms at 68 deg F
Page 7570
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
Specifications
Compression Check: Specifications
GENERAL ENGINE SPECIFICATIONS
MISCELLANEOUS COMPONENTS
Page 5167
EGR Control Solenoid: Electrical Diagrams
EC-EGRC/V-01 EGRC-solenoid Valve (DTC: P1400)
Circuit Diagrams
EGRC-solenoid Valve (DTC: P1400)
EGRC Solenoid Valve Circuit Connectors
Page 3810
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1162
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7643
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6220
Spark Plug: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3134
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5351
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2852
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2936
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5983
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 631
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 1582
1. Visually inspect the metal tube portion of the A/C low hose between the compressor flange and
the rubber hose for cracks or signs of leakage such as traces of oil or dirt deposits (see Figure 1).
NOTE:
Use a mirror and flashlight (as needed) to view the underside of the hose end.
Low Hose Leak Detector Inspection
1. Use an approved electronic leak detector (Kent Moore model # J39400 or # J41995) to check
the A/C low hose for leaks. Refer to pages HA-48 through HA-50 of the 1998 Frontier Service
Manual for the leak check procedure.
NOTE:
Make sure the electronic leak detector is properly calibrated and that the probe tip filter is clean
before performing the leak check. Refer to the leak detector owner's manual to calibrate and/or
change the probe tip filter as needed.
A/C Low Hose Installation
1. Use appropriate equipment to discharge and recover all remaining refrigerant from the vehicle's
A/C system. Refer to pages HA-51 and HA-52 of the 1998 Nissan Frontier Service manual for the
discharge and recovery procedure.
Page 6159
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 831
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6411
Torque Converter Clutch Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4287
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Diagram Information and Instructions
Canister Purge Volume Control Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6970
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Methods of Preventing Over-Discharge
Battery: Service and Repair Methods of Preventing Over-Discharge
CAUTION:
If it becomes necessary to start the engine with a booster battery and jumper cables:
- Use a 12-volt booster battery.
- After connecting battery cables, ensure that they are tightly clamped to battery terminals for good
contact.
- Never add distilled water through the hole used to check specific gravity.
The following precautions must be taken to prevent over-discharging a battery.
- The battery surface (particularly its top) should always be kept clean and dry.
- The terminal connections should be clean and tight.
- At every routine maintenance, check the electrolyte level.
- When the vehicle is not going to be used over a long period of time, disconnect the negative
battery terminal. (If the vehicle has an extended storage switch, turn it off.)
- Check the charge condition of the battery. Periodically check the specific gravity of the electrolyte.
Keep a close check on charge condition to prevent overdischarge.
Page 3732
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1192
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5267
Description (Part 1 Of 2)
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 3639
Type Of Standardized Relays (Part 2 Of 2)
Page 3604
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Capacity Specifications
Refrigerant: Capacity Specifications REFRIGERANT
REFRIGERANT
KILOGRAMS POUNDS (US)
0.75-0.85 1.65-1.87
Page 7587
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
Page 1422
> Engine coolant and lubricating oils at specified levels
> Spare tire, jack, hand tools, and floor mats in designated positions
NOTE:
Refer to the appropriate Service Manual for information about any of the above checks and
inspections.
4. Check the target mounts.
^ If there is any visual damage (bent, worn, cracked, etc), have the equipment repaired before
performing any alignments.
^ Make sure the target mounts are properly adjusted and configured (see Figure 11).
NOTE:
The target mount example shown in Figure 11 is for Hunter "camera type" alignment machines.
Follow the operation manual for your specific equipment.
Page 3107
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1785
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Page 6321
Page 2295
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 4713
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6285
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9233
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5494
Ground Distribution
Page 163
Page 6779
6. Separate drive shaft from knuckle spindle by slightly tapping end of drive shaft.
DISASSEMBLY
Final Drive Side (TS82F)
1. Remove plug seal from slide joint housing by lightly tapping around slide joint housing.
2. Remove boot bands.
3. Move boot and slide joint housing toward wheel side, and put matching marks.
4. Remove snap ring.
Page 505
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3918
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 6942
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8404
5. Peel off the top (smaller) backing sheet from one of the fluorine resin tapes (see Figure 5).
^ Two fluorine resin tape pieces are provided in the kit.
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
6A.
NOTE:
^ The sticky half should be down, toward the floor of the vehicle.
^ The unexposed (not sticky yet) half should be up, toward the ceiling of the vehicle.
Note the following before performing steps 7 and 8:
^ Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned.
^ Take care to properly attach the tape to the "D" ring.
^ Center the tape correctly on the "D" ring and smoothly apply it to the "D" ring surface so that no
wrinkles or ridges are present.
^ Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D"
ring. If this should occur, replace the tape with a new piece.
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 6B).
Page 6757
3. Install the bearing lock nut wrench P/N J-45073-1 on the axle locknut (see Figure 4a).
4. Loosen and remove the axle locknut (see Figure 4b).
5. Slide the extension tube and sleeve over the vehicle's axle shaft (see Figure 1b).
6. Install the two halves of the bearing puller jaw P/N J-45073-7 over the brake backing plate studs
(see Figure 5a).
7. Slide the sleeve P/N J-25852-4 over the bearing puller jaw halves (see Figure 5b).
8. Install a nut on each brake backing plate stud (see Figure 5c).
9. Tighten the forcing screw of the extension tube until the brake backing plate (with inner wheel
bearing) is pulled free (see Figure 5d).
IMPORTANT:
Do not use an impact wrench to tighten the forcing screw.
10. Remove the sleeve, bearing puller jaws, extension tube, and backing plate (with inner axle
bearing) from the axle shaft.
11. If needed, press the inner axle bearing race out of the backing plate using conventional
pressing methods.
Outer Axle Bearing Removal (from axle shaft)
1. Slide the extension tube and sleeve over the vehicle's axle shaft (see Figure 1b).
Page 8587
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 137
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 967
Description (Part 1 Of 2)
Page 3218
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9453
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4109
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4591
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5749
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5188
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Dome Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3120
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 983
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5938
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4186
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Adjustments
Heater Control Valve Cable: Adjustments
TEMPERATURE CONTROL CABLE
- When adjusting ventilator door rod and defrost door rod, first disconnect mode control cable from
side link. Reconnect and readjust mode control cable.
- Move temperature control lever to max. COLD position. Set air mix door lever in full hot mode.
Pull on outer cable in direction of arrow and then clamp it.
- After positioning temperature control cable, check that it operates properly.
Page 293
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1102
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6374
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4584
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 882
Control Units/Module
F29 Control Units/Module
Page 4535
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5416
Fuel Injector: Connector Views
Injector
Injector Circuit Connectors
Page 6835
Wheel Hub (Locking): Specifications
Page 650
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5490
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3067
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4905
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2383
Engine Control Module: Technical Service Bulletins ECM - Relay (Type 1M) Green or Blue
Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 648
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Description and Operation
Fast Idle Cam: Description and Operation
COMPONENT DESCRIPTION
The FIC is installed on the throttle body to maintain adequate engine speed while the engine is
cold. It is operated by a volumetric change in wax located inside the thermo-element. The
thermoelement is operated by engine coolant temperature.
Page 8774
F. Inspect for damage using fluorescent light source and magnification. If spots are removed, clean
affected panels.
G. Use abrasive cleaning on test section to remove up to 0.5 mil of damaged top/clear coat.* If
damage is less than 0.5 mil deep, clean affected panels with abrasive method. After polishing,
inspect for swirl marks using halogen lights. If damage is more than 0.5 mil deep, the affected
panels must be repaired either by re-clear, re-color/clear coat, or re-color coated (on vehicles with
no final clear coat).
A. Wash Procedure
Wash Equipment and Materials:
Spray wash system (a mobile or stationary unit with hand held spray similar to a coin operated car
wash that provides soap solution, rinse water and de-ionized final rinse).
Car wash detergent containing no phosphates, (Nissan P/N 999MP-A3100).
Clean 100% cotton terry cloth towels.
De-ionized water for the final rinse. De-ionized water is highly recommended as it reduces water
spotting. De-ionizing cylinders can be purchased or rented from water purification companies
1. During the summer months, the early morning hours are the best time to wash a car unless you
can wash and dry it in the shade. Never wash a car under the hot sun. All paint is subject to water
spot damage when washed under the sun due to high surface temperature.
2. Thoroughly rinse oft the surface dirt and foreign materials with a spray of clean tap water.
3. Gently apply detergent and water solution (Nissan P/N 999MP-A3100), keeping it wet for 4-5
minutes. To avoid scratching the finish, do not rub, gently move the solution around with light
pressure. Do not allow the solution to dry before rinsing. Use, clean warm water and a clean terry
cloth towel. Frequently rinse off the terry cloth towel to avoid scratches from entrapped dirt.
Replace the towel with a clean one once it becomes soiled.
Caution:
When washing a convertible rear window use gentle horizontal and vertical strokes, do not use a
circular motion.Use a clean terry cloth towel. Also refer to NTB92-092 for additional information on
convertible wash procedure.
4. Rinse with a spray of clean tap water. Make sure all detergent is flushed off the body. If soap
dries on the convertible rear window or some moldings it may cause streaking. Use a spray of
de-ionized water for the final rinse.
5. Use a clean damp terry cloth towel and gentle pressure to remove the majority of the rinse water
allowing the remaining water film to air dry. Replace the towel frequently to avoid scratches from
entrapped dirt.
6. Always wash, rinse, and dry a vehicle beginning with the roof and glass. Then the hood and
trunk followed by the vertical surfaces. Wash, rinse, and dry one section at a time if low humidity
causes fast drying. Do not allow soap solution or rinse water to dry on the finish.
B. Identifying Contamination
Examine the vehicle in both strong sunlight and indoor fluorescent lighting (inspection is easier with
a hand held 500 watt halogen lamp or a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is most easily done with a
8X and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Page 6523
13. Remove the shifter assembly by sliding it backward, then down slightly, then forward (see
Figure 9).
14. Apply white grease to the end of the main tube and install the new shifter assembly by inserting
the main tube over the knob at the top of the steering column bracket (see Figure 9).
CAUTION:
DO NOT get white grease on the interior upholstery.
15. Install the (2) grade 7 bolts (identified by the 7 on the head) to attach the A" control device to
the steering column (refer to Figure 8). Bolt torque specification: 64 to 80 in/lb (0.86 to 1.10 kg/m).
16. Check to make sure no wires are pinched or trapped between the shifter assembly and the
steering column.
17. Connect the All cable to the A/T shifter assembly (refer to Figure 7).
18. Connect the brake pedal interlock solenoid harness located under the steering column
assembly (refer to Figure 6).
19. Connect the key lock rod from the All shifter assembly and insert the pin clip (refer to Figure 5).
20. Install the spring clip from the parts kit onto the A/T shifter assembly (see Figure 10).
21. Apply white grease to the pivot end and shaft of the shift lever and install it into the A/T shifter
assembly. Insert the clevis pin from the steering column side to secure the lever and then install the
pin clip. Secure the O/D switch wire to the main tube with the tie wrap from the parts kit and
reposition the rubber boot over the lever connector. Ensure the O/D switch wire is routed through
the notch on the boot (refer to Figures 4 & 5).
CAUTION:
DO NOT get white grease on the interior upholstery.
22. Connect the O/D switch wire connector (on the top of the steering column) and install it on the
mounting bracket (refer to Figure 4). If the bracket was broken during removal, use a tie wrap (not
provided) to secure the overdrive switch wire connector to the steering column. Ensure that it does
not rattle.
Diagram Information and Instructions
Ignition Coil: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8806
Finish Kare products are marketed by mobile distributors which will deliver the product directly to
your dealership. If a Finish Kare distributor is not located in your area, Finish Kare can be
contacted at the number above for direct shipment from their national office.
Page 2223
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Diagram Information and Instructions
Leak Detection Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2582
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Specifications
Acceleration/Deceleration Sensor: Specifications
TIGHTENING SPECIFICATIONS
G Sensor .............................................................................................................................................
........................ 4.4 - 5.8 Nm (39.1 - 51.2 inch lbs.)
Keyless Entry - Remote Programming
Technical Service Bulletin # 99-036A Date: 000510
Keyless Entry - Remote Programming
Classification: EL99-001A
Reference: NTB99-036A
Date: May 10, 2000
NISSAN KEYLESS REMOTE ENTRY PROGRAMMING
This amended version of NTB99-036 updates the Applied Vehicle, Service Information, and
Service This amended Procedure Sections. Please discard all paper copies of NTB99-036
APPLIED VEHICLES: 1998-00 Altima (L30) 1998-00 Frontier (D22) 1998-99 Maxima (A32) 2000
Maxima (A33)
1998-00 Pathfinder (R50) 1998-99 Sentra (B14) 2000
Sentra (B15)
1999-00 Quest (V41) 2000
Xterra (WD22)
SERVICE INFORMATION
If a remote switch assembly (remote controller) for an Applied Nissan vehicle does not operate or
operates intermittently, it may need to be re-programmed.
Use the following procedure to program the remote controller.
NOTE:
Not all trim level variations of a given vehicle include the remote controller function. Review the
vehicle sales brochure to determine if the vehicle trim level is equipped with the remote controller
function before starting the programming procedure.
Also confirm that the remote controller(s) being programmed is the correct remote controller for the
vehicle.
NOTE:
A. 1998-99 Altima, Maxima, Pathfinder, Sentra, and Frontier Models, 1999 Quest, and 2000
Frontier Models built before VIN 343314:
If the vehicle has more than one remote controller, the remote controllers must all be programmed
at the same time (a maximum of 4 remotes can be programmed).
B. All 2000 Altima, Maxima, Pathfinder, Sentra, Quest, Xterra, Frontier Crew Cab and Desert
Runner Models, and Frontier Models built after VIN 343314:
If the vehicle has more than one remote controller, the oldest ID code is erased when programming
a new remote when there are already 4 ID codes in memory.
If there are less than 4 ID codes stored in memory, then the new ID code is added and no ID codes
are erased, unless a new remote is programmed after filling all 4 memory positions. A maximum of
4 remotes can be programmed.
NOTE:
Regarding 2000 Maxima, Pathfinder, and Sentra vehicles:
You may use CONSULT-II to program remotes for these vehicles. Refer to the appropriate
Electronic Service Manual (ESM) for further information. You may also program these vehicle
remotes using the Service Procedure provided below.
CLAIMS INFORMATION
^ Re-programming of an otherwise functional remote controller is not covered by warranty.
Page 1038
Description (Part 1 Of 2)
Page 5290
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 138
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4156
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8842
C. Remove the sunroof panel by lifting the panel so that it stands straight up, then slide it toward
the drivers side to release it from the hinge brackets (see Figure 3). Place the sunroof panel in a
safe place until it is reinstalled.
2. Remove the sunroof weather strip from the vehicle body (see Figure 4).
Page 6588
NOTE: If "DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE" has been previously
conducted, always turn ignition switch "OFF" and wait at least 5 seconds before conducting the
next test.
TESTING CONDITION:
Always perform the test at a temperature of -10° C (14° F) or higher.
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Turn ignition switch "OFF" and
wait at least 5 seconds. (3) Start engine. (4) Select "TCC S/V FNCTN P1776" of "A/T (TCC S/N)" in
"DTC WORK SUPPORT" mode with CONSULT. (5) Touch "START". (6) When the following
conditions are met, "TESTING" will be displayed on the CONSULT screen. Maintain the conditions
continuously until
"TESTING" changes to "COMPLETED". (It will take approximately 20 seconds.) Selector lever: D
(OD "ON") Vehicle speed: 76 - 100 km/h (47 - 62 MPH) CMPS.RPM (REF): Less than 2,150 rpm
(Single cab model) Less than 2,300 rpm (King cab model) B/FUEL SCHDL: 2.5 - 5 ms THRTL POS
SEN: Less than 1.3V If "TESTING" is not displayed after 5 minutes, retry from step 2).
(7) Make sure that "OK" is displayed after touching "SELFDIAG RESULTS".
If "NG" is displayed, refer to "DIAGNOSTIC PROCEDURE".
OR
With Generic Scan Tool
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Select MODE 7 with GST.
OR
Page 2455
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3013
Control Units/Module
F29 Control Units/Module
Page 9379
Headlamp: Electrical Diagrams
Canada
Schematic (For Canada)
Circuit Schematic
Page 1544
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 4716
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2747
Oxygen Sensor: Specifications
For FRONT or REAR Heated Oxygen Sensors.
Resistance 2.3 - 4.3 ohms at 77 deg F
Page 9418
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9255
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1215
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 5677
Fuel Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION Tank fuel temperature sensor
Check resistance by heating with hot water as shown in the figure or a heat gun. If NG, replace
tank fuel temperature sensor.
Page 591
Optional Splice
Example Diagrams
Page 4025
Page 507
Type Of Standardized Relays (Part 2 Of 2)
Page 2770
Oxygen Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 901
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6145
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 7979
Wheels: Specifications
DIMENSIONS
Aluminum Wheel:
Maximum Radial Runout
.............................................................................................................................................................
0.3 mm (0.012 inch) Maximum Lateral Runout
............................................................................................................................................................
0.3 mm (0.012 inch)
Steel Wheel:
14 Inch:
Painted:
Maximum Radial Runout
................................................................................................................................................. 0.5 mm
(0.020 inch) Maximum Lateral Runout
................................................................................................................................................ 0.8 mm
(0.031 inch)
Plated:
Maximum Radial Runout
................................................................................................................................................. 0.6 mm
(0.024 inch) Maximum Lateral Runout
................................................................................................................................................ 0.8 mm
(0.031 inch)
15 Inch:
Maximum Radial Runout
....................................................................................................................................................... 0.8
mm (0.031 inch) Maximum Lateral Runout
...................................................................................................................................................... 0.8
mm (0.031 inch)
NOTE: Runout average = (Outside runout value + inside runout value) x 0.5
Page 5189
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7149
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Page 1010
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 107
Technical Service Bulletin # 09-029 Date: 090421
Engine Controls - CONSULTIII(R) ECM Programming
Classification: EC09-007
Reference: NTB09-029
Date: April 21, 2009
CONSULT-III ECM REPROGRAMMING PROCEDURE
APPLIED VEHICLES: All CONSULT-III (C-III) compatible Nissan vehicles
SERVICE INFORMATION
A complete step-by-step General Procedure for C-III ECM Reprogramming is now available in the
on-line version of this bulletin.
This General Procedure is also available via hyperlink from specific C-III symptom-based Technical
Service Bulletins in ASIST.
CAUTION
Part 1
Updated March 25, 2009
CONSULT-III (C-III) ECM REPROGRAMMING
A symptom based TSB is required before using this procedure.
IMPORTANT: Before starting, make sure:
^ ASIST on the C-III computer has been freshly synchronized (updated).
^ All C-III software updates (if any) have been installed.
NOTE:
The C-III computer automatically gets applicable ECM reprogramming data during ASIST
synchronization.
Page 1915
Connecting Rod: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Wheel Fastener Torque Specifications
Wheel Fastener: Specifications Wheel Fastener Torque Specifications
TIGHTENING SPECIFICATIONS
Lug Nut ................................................................................................................................................
............................ 118 - 147 Nm (87 - 108 ft. lbs.)
Page 791
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5403
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7653
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Specifications
Parking Brake Control: Specifications
TIGHTENING SPECIFICATIONS
Control Mounting Bracket
....................................................................................................................................... 10.8 - 14.6
Nm (96 - 129.6 inch lbs.)
Page 4152
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2995
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2869
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 849
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 4067
Engine Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 271
Description (Part 1 Of 2)
Page 6395
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3661
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6783
1. Apply multi-purpose grease.
2. Install bearing spacer onto drive shaft.
Make sure that the bearing spacer is facing in the proper direction.
3. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
4. When installing drive shaft, adjust drive shaft axial end play by selecting a suitable snap ring.
a. Temporarily install new snap ring on drive shaft in the same thickness as it was installed before
removal.
b. Set dial gauge on drive shaft end. c. Measure axial end play of drive shaft.
Axial end play: 0.45 mm (0.0177 inch) or less
d. If axial end play is not within the specified limit, select another snap ring.
Available Driveshaft Snap Rings
Thickness And Part No. 1.1 mm (0.043 inch) ......................................................................................
............................................................................ 39253-88 G10 1.3 mm (0.051 inch) ........................
.......................................................................................................................................... 39253-88
G11 1.5 mm (0.059 inch) .....................................................................................................................
............................................. 39253-88 G12 1.7 mm (0.067 inch) .......................................................
........................................................................................................... 39253-88 G13
Page 456
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 8744
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5633
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Paint - Refinish Paint Codes/Cross Reference
Paint: All Technical Service Bulletins Paint - Refinish Paint Codes/Cross Reference
Classification: BT97-004
Reference: NTB97-052
Date: July 30, 1997
1998 MODEL REFINISH PAINT CODES
APPLIED VEHICLES: All
SERVICE INFORMATION
Page 380
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Specifications
Engine Oil Pressure: Specifications
WARNING: Be careful not to burn yourself, as the engine and oil may be hot.
- For M/T models, put gearshift lever in Neutral "N" position. For A/T models, put selector lever in
Park "P" position.
1. Check oil level. 2. Remove oil pressure switch. 3. Install pressure gauge. 4. Start engine and
warm it up to normal operating temperature. 5. Check oil pressure with engine running under
no-load.
- If difference is extreme, check oil passage and oil pump for oil leaks.
6. Install oil pressure switch with sealant.
Page 6781
- After drive shaft has been assembled, ensure that it moves smoothly over its entire range without
binding.
- Use Nissan genuine grease, or equivalent after every overhaul.
Final Drive Side (TS82F)
1. Install new small boot band, boot and side joint housing to drive shaft.
Cover drive shaft serration with tape to prevent damaging boot during installation.
2. Install spider assembly securely, making sure marks are properly aligned.
- Press-fit with spider assembly serration chamfer facing shaft.
3. Install new snap ring.
4. Pack with grease.
Specified amount of grease:
95 - 105 grams (3.35 - 3.70 ounce)
5. Make sure that the boot is properly installed on the drive shaft groove. Set the boot so that it
does not swell or deform when its length is "L".
Length "L1": 95 - 97 mm (3.74 - 3.82 inch)
6. Lock new large boot band securely with a suitable tool, then lock new small boot band.
Page 3601
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4514
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4296
Intake Air Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3620
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Specifications
Brake Switch (Cruise Control): Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 6788
Constant Velocity Joint: Application and ID
Final Drive Side ...................................................................................................................................
....................................................................... TS82F
Wheel Side ..........................................................................................................................................
........................................................................ ZF100
Page 2807
Description (Part 1 Of 2)
Page 957
Leak Detection Sensor: Description and Operation
COMPONENT DESCRIPTION
The EVAP control system pressure sensor detects pressure in the purge line. The sensor output
voltage to the ECM increases as pressure increases. The EVAP control system pressure sensor is
not used to control the engine system. It is used only for on board diagnosis.
Page 5638
Type Of Standardized Relays (Part 2 Of 2)
Page 4072
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Front Seat Belt
Seat Belt: Service and Repair Front Seat Belt
CAUTION:
- Do not disassemble buckle or seat belt assembly. - Replace anchor bolts if they are deformed or
worn out. - Never oil tongue and buckle. - If any component of seat belt assembly is questionable,
do not repair. Replace the seat belt assembly. - If webbing is cut, frayed, or damaged, replace seat
belt assembly. - When replacing seat belt assembly, use a genuine NISSAN seat belt assembly. After any collision, inspect all seat belt assemblies, including retractors and other attached
hardware.
Front Seat Belt
REMOVAL
Remove front seat. 1. Remove buckle. 2. Remove floor anchor bolt. 3. Remove adjuster cover and
upper guide loop anchor bolt.
- For King Cab models, remove jump seat.
- Remove rear pillar lower and upper garnishes.
4. Remove guide plate. 5. Remove two adjuster bolts and adjuster assembly. (Refer to "A" in
image).
Page 832
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 2106
4. Use a suitable tool, such as a small pry bar or large screwdriver (approximately 12 inches long).
Pry the cam bracket as shown in Figure 2, while applying approximately 3 pounds (1.4 kg.) of force
to the end of the tool. This will produce approximately 30 pounds (13.6 kg) of force against the cam
bracket (shown schematically in Figure 1).
CAUTION:
The amount of movement of the cam bracket is so small that no noticeable movement will be
observed. Do not apply excessive force to the cam bracket.
5. While holding pressure (approximately 3 pounds, 1.4 kg) on the end of the pry bar, tighten the
bolts sufficiently to ensure the bracket will not move when the pressure is released.
6. Tighten the bolts in two steps, first to 17 inch pounds (0.1 NM. 0.01 kg m) and finally to 104 inch
pounds (0.7 NM, 0.07 kg m) of torque.
7. Repeat this procedure for each of the nine remaining cam brackets.
8. Install the new upper chain tensioner (P/N 13070-9E003) following the normal Service Manual
procedure.
9. Remove the rag from the timing chain area and reassemble.
10. Start engine and check for oil leaks and unusual noises.
PARTS INFORMATION
CLAIMS INFORMATION
Front Wheel Bearing
Wheel Bearing: Testing and Inspection Front Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
- Adjust wheel bearing preload if there is any axial end play or wheel bearing does not turn
smoothly.
Capacity Specifications
Fluid - Differential: Capacity Specifications
Front Differential
Specified amount .................................................................................................................................
.................................................. 2.75 pts. (1.3 Liters)
Rear Differential
Specified amount: H190A ....................................................................................................................
............................................................................. 3.125 pts. (1.5 Liters) C200 ...................................
..............................................................................................................................................................
..... 2.75 pts. (1.3 Liters)
Page 2605
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 675
EC-RRO2-01 Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Diagrams
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 1811
10. Measure starting force "A" at wheel hub bolt.
11. Install lock washer by tightening the lock nut within 15 to 30 degrees.
12. Turn wheel hub several times in both directions to seat wheel bearing correctly.
13. Measure starting force "B" at wheel hub bolt. Refer to step 10. 14. Wheel bearing preload "C"
can be calculated as shown below.
C = B - A Wheel bearing preload "C": 7.06 - 20.99 N (1.59 - 4.72 lbs.)
15. Repeat steps 3 through 14 until correct axial end play and wheel bearing preload are obtained.
16. Tighten screws to 1.2 - 1.8 Nm (10.4 - 15.6 inch lbs.).
17. Install free running hub.
Page 824
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2090
Timing Chain: Service Precautions
PART 1 OF 3
PART 2 OF 3
PART 3 OF 3
Page 2116
Use Genuine Nissan RTV silicone sealant P/N 999MP-A7007, Three Bond P/N TB1207D or
equivalent.
c. Also place RTV sealant on the head gasket surface.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
CAUTION:
Be careful upper timing chain does not slip or jump when installing the camshaft sprocket cover.
d. Install camshaft sprocket cover.
5. Install rubber plugs into cylinder head after applying RTV sealant (see Figure 8).
6. Install rocker cover, tightening the bolts as shown in Figure 9.
Page 1433
Alignment: Specifications Camber
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 0°06' (0.10°) Nominal ......................................................................
............................................................................................................................. 0°36' (0.60°)
Maximum .............................................................................................................................................
.................................................... 1°06' (1.10°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Page 493
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4154
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5279
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 504
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1080
Description (Part 1 Of 2)
Page 1303
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2678
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4298
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1912
Tightening procedure.
Note: Apply new engine oil to bolt threads and seat surfaces.
a. Tighten all bolts to 2 Nm (0.2 kg-m, 17 inch lbs.). b. Tighten all bolts to 9.0 to 11.8 Nm (0.92 to
1.2 kg-m, 79.9 - 104.2 inch lbs.).
Cylinder Head
Tighten cylinder head bolts in numerical order a. Tighten all bolts to 29 Nm (3.0 kg-m, 22 ft. lbs.). b.
Tighten all bolts to 79 Nm (8.1 kg-m, 59 ft. lbs.). c. Loosen all bolts completely d. Tighten all bolts to
25 to 34 Nm (2.5 to 3.5 kg-m, 18 to 25 ft. lbs.). e. Turn all bolts 86 +5/-0 degrees clockwise, or if an
angle wrench is not available, tighten bolts to 75 to 84 Nm (7.6 to 8.6 kg-m, 55 to 62 ft. lbs.).
Crank Shaft
Main Bearing Cap Bolts Removal Sequence
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 1529
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 3720
Optional Splice
Example Diagrams
Page 1882
a. Tighten all bolts to 2 Nm (0.2 kg-m, 17 inch lbs.). b. Tighten all bolts to 9.0 to 11.8 Nm (0.92 to
1.2 kg-m, 79.9 - 104.2 inch lbs.).
- Apply new engine oil to bolt threads and seat surfaces.
6. Install camshaft sprockets.
7. Install rubber plugs as follows.
(1) Apply liquid gasket to rubber plugs. (2) Install rubber plugs, then move them by hand to
uniformly spread the gasket on cam sprocket cover surface. Rubber plugs should be installed
flush with the cylinder head surface.
8. Install distributor.
- Make sure that No. 1 piston is set at TDC and that distributor rotor is set at No. 1 cylinder spark
position.
9. Install rocker cover.
8 - 11 Nm (0.8 - 1.1 kg-m, 69 - 95 inch lbs.).
10. Install all spark plugs with high-tension cords. 11. Connect injector harness connector and
replace injector tube assembly with injectors. 12. Install the following parts.
- Radiator shroud
- Cooling fan with coupling
Page 1258
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2341
Exhaust Manifold: Specifications
Page 9531
Type Of Standardized Relays (Part 2 Of 2)
Page 9278
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3157
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 259
Wheel Speed Sensor: Description and Operation
The sensor unit consists of a gear-shaped sensor rotor and a sensor element. The element
contains a bar magnet around which a coil is wound. The sensor is installed on the back of the
brake rotor and the back of the rear brake drum. As the wheel rotates, the sensor generates a
sine-wave pattern. The frequency and voltage increase(s) as the rotating speed increases.
Page 2423
Page 5098
Description (Part 1 Of 2)
Page 6288
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1768
Page 1085
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3193
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 455
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5826
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 218
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 602
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5126
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5158
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6318
Page 7839
1. Disconnect shock absorber lower end, and remove U-bolts.
2. Disconnect spring shackle.
3. Disconnect front pin.
INSPECTION
- Check leaf spring for cracks. Replace if necessary.
- Check front bracket and pin, shackle, U-bolts and spring pad for wear, cracks, straightness and
damaged threads. Replace if necessary.
- Check all bushings for deformation and cracks. Replace if necessary.
- Rear spring front bushing, make sure that front bushing is properly installed. (4WD)
INSTALLATION
1. Apply soapsuds to rubber bushing. 2. Install spring shackle and front pin, and finger tighten the
nuts. 3. Install spring pad and nuts under leaf spring or axle case. 4. Tighten U-bolt mounting nuts
diagonally.
Page 4020
Page 8086
- Using the holder to prevent drive plate rotation, tighten the bolt to 12 to 15 N.m (1.2 to 1.5 kg-m, 9
to 11 ft-lb) torque.
^ After tightening the bolt, check that the pulley rotates smoothly.
- Check clearance all the way around the clutch disc. Disc-to-pulley clearance: 0.3 - 0.6 mm (0.012
- 0.024 in) If the specified clearance is not obtained, replace adjusting spacer and recheck.
BREAK-IN OPERATION
When replacing compressor clutch assembly, always conduct the break-in operation. This is done
by engaging and disengaging the clutch about 30 times. Break-in operation raises the level of
transmitted torque.
Page 1153
Optional Splice
Example Diagrams
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 6153
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 1419
^ Make sure the rear slide plates:
> Do not wobble (no up/down movement).
> Operate (slide) smoothly in all directions.
If there is any issue with the slide plate operation - have the equipment repaired before performing
any alignments.
5. Make sure the lock pins for the front "turn plates" and rear "slide plates" are in place.
NOTE:
Lock pins should remain in place until caster sweep.
The Alignment Process
The Alignment Process
IMPORTANT:
Use only the alignment specifications listed in the appropriate Service Manual when adjusting the
alignment.
1. Make sure the vehicle is straight on the alignment rack.
^ Vehicle must be straight (in line) with the alignment rack before entering the rack as shown in
Figure 4.
^ Do not straighten the vehicle while on the rack (see Figure 5).
^ If the vehicle needs to be straightened, exit the alignment rack, straighten the vehicle and then
re-enter the rack.
^ Once the vehicle is straight on the rack, do not turn/center the steering wheel-keep the front
wheels straight.
Page 5553
Optional Splice
Example Diagrams
Page 8572
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 530
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8989
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2271
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2914
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Specifications
Intake Air Temperature Sensor: Specifications
Resistance 2.1 - 2.9 K ohms at 68 deg F
0.27 - 0.38 K ohms at 176 deg F
Page 6868
Drive/Propeller Shaft: Tools and Equipment
Part 1 of 4
Page 6577
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8537
^ Re-programming of additional remote controllers is not covered by warranty.
^ Remote controller replacement due to customer abuse, purse/pocket damage, and/or loss is not
covered by warranty.
^ The replacement of the remote controller battery is not covered by warranty.
Service Procedure
For 1998-2000 Maxima, Pathfinder, Sentra, Altima, and Frontier Vehicles 2000 Quest and Xterra
Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when this step is accurately completed and programming
is successful. For 2000 Quest vehicles, the side marker/tail/license lamps will flash twice when
programming is successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when programming is successful. For 2000 Quest
vehicles, the side marker/tail/license lamps will flash twice when programming is successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
remote controller you have programmed.
For 1999 Quest Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: All Technical Service Bulletins MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 6683
Clutch Pedal Assembly: Adjustments
1. Adjust pedal height with pedal stopper bolt or ASCD clutch switch.
Pedal height "H": 221 - 231 mm (8.70 - 9.09 inch)
2. Adjust pedal free play by turning master cylinder push rod.
Then tighten lock nut.
Pedal free play "A": 9 - 16 mm (0.35 - 0.63 inch)
Pedal free play, measured at pedal pad includes the following: Free play due to clevis pin and clevis pin hole, push rod and master cylinder.
3. Make sure that clevis pin can rotate smoothly.
If not, readjust pedal free play with master cylinder push rod.
Page 3113
Ground Distribution
Page 4428
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Wheels/Tires - Tire Mounting Information
Wheels: Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Page 353
Component Parts And Harness Connector Location
Page 809
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5582
Idle Up Control Valve: Electrical Diagrams
Idle Air CTRL Valve (IACV)-FICD Solenoid Valve
EC-FICD-01 IACV-FICD Solenoid Valve
Circuit Diagrams
IACV-FICD Solenoid Valve
IACV-FICD Solenoid Valve Circuit Connectors
Page 117
27. Select the correct vehicle and model year from the list (see Figure 13 example).
28. Select Select
29. Make sure the correct vehicle is displayed (see Figure 14 example).
30. Select Confirm
Page 4927
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 383
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Testing and Inspection
Ignition Cable: Testing and Inspection
COMPONENT INSPECTION Ignition wires
1. Inspect wires for cracks, damage, burned terminals and for improper fit. 2. Measure the
resistance of wires to their distributor cap terminal. Move each wire while testing to check for
intermittent breaks.
Resistance: 13.6 - 18.4 K Ohms (4.15 - 5.61 K Ohms/ft) at 25°C (77°F)
If the resistance exceeds the above specification, inspect ignition wire to distributor cap connection.
Clean connection or replace the ignition wire with a new one.
Page 6362
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5197
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Rear Wheel Bearing Nut Torque
Axle Nut: Specifications Rear Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 1227
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Indicator
Passenger Air Bag Deactivation Switch Indicator
REMOVAL
Passenger Air Bag Module Deactivation Switch Indicator
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes
1. Remove meter cover. 2. Release passenger air bag deactivation switch indicator tabs from back
side of meter cover. 3. Remove passenger air bag deactivation switch indicator from front side of
meter cover.
INSTALLATION
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 5081
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4056
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9273
Optional Splice
Example Diagrams
Page 8210
Comments regarding tubes and hoses:
^ Some R-134a tubes and hoses have reversed male/female connections to prevent
interchangeability with R-12 components.
R134A Service Tools & Equipment
^ R-12 and R-134a require separate and non-interchangeable sets of recovery, recycle, and
recharge equipment, because the refrigerants and lubricants are not compatible and cannot be
mixed even in the smallest amounts.
^ DO NOT attempt to use one set of equipment for both R-12 and R-134a, as all equipment
contains residual amounts of refrigerant and/or lubricant,
Page 2270
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1631
Fluid - Differential: Fluid Type Specifications
Specified type ......................................................................................................................................
................................................................... API GL-5
Specified viscosity at ambient temperature ranges: Below 10°C (50°F) .............................................
................................................................................................................................................... SAE
75W Below 30°C (86°F) ......................................................................................................................
.......................................................................... SAE 80W Below 40°C 104°F) ..................................
.................................................................................................................................. SAE
75W-90/SAE 80W-90 Between 30°C (86°F) and -10°C (14°F) ...........................................................
..................................................................................................... SAE 85W Between 40°C (104°F)
and 0°C (32°F) ....................................................................................................................................
................................. SAE 90 Above 10°C (50°F) ...............................................................................
................................................................................................................... SAE 140
NOTE: 80W-90 is preferable for ambient temperatures below 40°C (104°F)
Page 6377
Torque Converter Clutch Solenoid: Electrical Diagrams
EC-LKPU-01 Torque Converter Clutch Solenoid Valve (DTC: P1775)
Circuit Diagrams
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Page 823
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9576
Main Harness (Part 2 Of 2)
Main Harness Layout Index
Page 298
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 6247
Ground Distribution
Page 2924
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Locations
Circuit Breaker: Locations
Passenger Compartment (Part 1 Of 2)
Page 3925
Description (Part 1 Of 2)
Hub, Rotor and Wheel Bearing
Wheel Hub (Locking): Service and Repair Hub, Rotor and Wheel Bearing
Page 5875
Type Of Standardized Relays (Part 2 Of 2)
Page 9605
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
4. Remove the glass mounting bolts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove the module assembly.
7. Remove the door regulator assembly from the module assembly.
8. Remove the power window motor from the regulator.
Disclaimer
Page 4227
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5419
Fuel Injector: Testing and Inspection
COMPONENT INSPECTION Injector
1. Disconnect injector harness connector.
2. Check resistance between terminals as shown in the figure.
Resistance: 10 - 14 Ohms [at 25° C (775° F)]
If NG, replace injector.
Page 2798
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor Heater
COMPONENT INSPECTION Front Heated Oxygen Sensor Heater
Check resistance between terminals (3) and (1).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
Check continuity between terminals (2) and (1), (3) and (2). Continuity should not exist. If NG,
replace the front heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
A/C - Refrigerant Leaks From Connections
A/C Coupler O-ring: All Technical Service Bulletins A/C - Refrigerant Leaks From Connections
Classification: HA09-003
Reference: NTB09-099
Date: September 25, 2009
A/C SYSTEM O-RING SEAL LEAKS
APPLIED VEHICLES: All Nissan vehicles with A/C system
IF YOU CONFIRM
A refrigerant leak at a refrigerant pipe/hose joint location,
NOTE:
Follow the leak detection information in the Service Manual to determine the source of refrigerant
leaks.
ACTIONS
NOTE:
The O-ring seal is the most common cause of a refrigerant leak at an A/C joint.
1. Inspect the metal surfaces of the pipe/hose joint for damage or contamination.
NOTE:
Do not replace a refrigerant pipe, hose, or other A/C component if an o-ring seal will solve the leak
incident, if it should occur.
2. If no damage is found to the joint metal surfaces, replace the O-ring seal.
CAUTION:
^ When replacing O-ring seals, use lint-free gloves,
^ Make sure no foreign material is introduced into the system when the joint is open.
^ Apply A/C oil to the O-ring before installation.
^ After recharging the system, recheck for leaks.
PARTS INFORMATION
Reference an electronic parts catalog (FAST or equivalent) for any needed parts.
CLAIMS INFORMATION
Reference the current Nissan Warranty Flat Rate Manual and use the correct coding for repairs
performed.
Page 7450
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 1845
Wheel Hub (Locking): Diagrams
Page 5543
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6599
MATERIAL SAFETY DATA SHEET
PARTS INFORMATION
CLAIMS INFORMATION
Page 6619
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Specifications
Radio Antenna - Bent/Broken
Antenna Mast: All Technical Service Bulletins Radio Antenna - Bent/Broken
Classification: EL98-001
Reference: NTB98-022
Date: March 15, 1998
BROKEN OR BENT RADIO ANTENNA (FIXED) DUE TO IMPROPER TORQUE
APPLIED VEHICLES: All models with fixed (whip) radio antennae
SERVICE INFORMATION
The fixed antenna rod may bend or break during vehicle usage if it is not properly tightened during
installation.
Use this bulletin to ensure that every fixed antenna is correctly tightened during pre-delivery
inspection.
SERVICE PROCEDURE
1. Add a drop of Loc-Tite (Red) to the threaded portion of the antenna.
2. Use an inch-pound torque wrench and a crowfoot socket (or equivalent tools) to torque the fixed
antenna rod.
CAUTION:
Do not use pliers or adjustable wrenches that might scratch the surface of the antenna rod.
Torque Specification: 3.4 - 3.6 N.m (30 - 32 in-lb)
Page 491
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9431
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2736
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Testing and Inspection
Blower Motor Resistor: Testing and Inspection
Check continuity between terminals.
Page 3694
Page 3860
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4756
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5120
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4314
Optional Splice
Example Diagrams
Page 5999
Description (Part 1 Of 2)
Page 7366
Ignition Ballast Resistor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6170
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 352
Brake Light Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Pinion Seal
Seals and Gaskets: Service and Repair Pinion Seal
FRONT OIL SEAL REPLACEMENT (FRONT FINAL DRIVE: MODEL R180A)
1. Remove front propeller shaft. 2. Loosen drive pinion nut.
Tool number: ST38060002 (J34311)
3. Remove companion flange using puller.
4. Remove front oil seal.
5. Apply multi-purpose grease to cavity at sealing lips of oil seal. Press front oil seal into carrier.
Tool number: ST30720000(J25405)
6. Install companion flange and drive pinion nut. 7. Install propeller shaft.
Page 1694
Comments regarding R-134a manifold gauge set:
^ Be certain that the gauge face indicates R134a or 134a.
^ Be certain that the manifold gauge set has the 1/2" - 16 ACME threaded connections for service
hoses, ensuring that only R-134a service hoses are used.
^ Be certain that no refrigerants other than R-134a (along with only specified lubricants) are used
with the manifold gauge set.
Page 3625
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9449
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Diagram Information and Instructions
Ignition Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3547
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3699
Technical Service Bulletin # 09-029 Date: 090421
Engine Controls - CONSULTIII(R) ECM Programming
Classification: EC09-007
Reference: NTB09-029
Date: April 21, 2009
CONSULT-III ECM REPROGRAMMING PROCEDURE
APPLIED VEHICLES: All CONSULT-III (C-III) compatible Nissan vehicles
SERVICE INFORMATION
A complete step-by-step General Procedure for C-III ECM Reprogramming is now available in the
on-line version of this bulletin.
This General Procedure is also available via hyperlink from specific C-III symptom-based Technical
Service Bulletins in ASIST.
CAUTION
Part 1
Updated March 25, 2009
CONSULT-III (C-III) ECM REPROGRAMMING
A symptom based TSB is required before using this procedure.
IMPORTANT: Before starting, make sure:
^ ASIST on the C-III computer has been freshly synchronized (updated).
^ All C-III software updates (if any) have been installed.
NOTE:
The C-III computer automatically gets applicable ECM reprogramming data during ASIST
synchronization.
Page 6736
DRIVE PINION PRELOAD ADJUSTMENT
Page 6050
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5829
Type Of Standardized Relays (Part 2 Of 2)
Page 4507
Ground Distribution
Page 3190
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3525
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2725
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 3337
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4780
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9551
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4393
EC-FRO2-01 Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Diagrams
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6475
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2927
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2549
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Parking Brake Lever: Specifications
Lever Stroke:
[1] .........................................................................................................................................................
........................................................... 10 - 12 [2] ................................................................................
.............................................................................................................................................. 1
[1] Under a force of 196 N (44 lbs.). [2] When warning switch comes on.
Page 99
Page 2361
Page 4443
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 4063
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7423
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 4825
customer should then replace with another set of platinum tip plugs rather than the standard plugs
called out in the owners manual.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the claims coding table shown.
MIL ON - DTC P1440, P1444, or P1491 (EVAP)
Canister Purge Solenoid: Customer Interest MIL ON - DTC P1440, P1444, or P1491 (EVAP)
CLASSIFICATION: EC98-034
REFERENCE: NTB98-113
DATE: February 1, 1999
TITLE: 1998-99 FRONTIER MIL ON WITH DTC P1440, P1444, OR P1491 STORED IN THE ECM
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED VIN: Vehicles built before 1N6DD26SXXC315372
APPLIED DATE: Vehicles built before October 21, 1998
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If a 1998-99 Frontier has a MIL ON with DTC P1440, P1444 or P1491 stored in the ECM, the
cause may be contamination in the purge volume control valve. Rust inside of the solenoid bracket
metal pipe may be the source of the contamination. Contamination can enter the purge volume
control valve and cause it to stick open.
Use the following service procedure to resolve this incident, if it should occur.
SERVICE PROCEDURE
1. Disconnect the intake manifold vacuum hose from the solenoid bracket metal pipe (intake
manifold side). See Figure 1.
2. Connect a vacuum pump to the solenoid bracket metal pipe (intake manifold side). See Figure 1.
3. Apply vacuum to the purge volume control valve.
A. If vacuum cannot be maintained (valve is leaking), replace the purge volume control valve and
proceed with step 4.
B. If vacuum can be maintained (valve is not leaking), proceed with step 4.
Page 6037
Description (Part 1 Of 2)
Page 8935
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5921
Description (Part 1 Of 2)
Page 6056
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6063
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 5408
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
A/T - Mandatory Oil Cooler Cleaning
Technical Service Bulletin # 00-056B Date: 021127
A/T - Mandatory Oil Cooler Cleaning
Classification: AT00-001b
Reference: NTB00-056b
Date: November 27, 2002
1988 AND LATER NISSAN VEHICLES AUTOMATIC TRANSMISSION OIL COOLER CLEANING
ATTENTION:
This bulletin supersedes NTB91-099, NTB93-007, NTB94-050, and NTB95-109B, and amends
NTB00-056a. The applied models/model years and information in the Claims Information section of
NTB00-056a was updated. Please discard all paper copies of NTB91-099, NTB93-007,
NTB94-050, NTB95-109B, and earlier versions of NTB00-056.
APPLIED VEHICLES: All 1988 and later with automatic transmission (including the Xtronic CVT
automatic transmission)
SERVICE INFORMATION
Whenever an automatic transmission (A/T) is repaired, overhauled, or replaced, the A/T oil cooler
mounted in the radiator must be inspected and cleaned.
^ Metal debris and friction material, if present, can become trapped in the A/T oil cooler and may
build up as transmission fluid enters the Cooler Inlet.
^ This debris can contaminate the newly serviced transmission.
^ In severe cases this debris can block or restrict the flow of transmission fluid/oil. In either case,
failure of the newly serviced A/T may result.
It will be necessary to back flush the cooler through the Cooler Outlet in order to flush out any built
up debris.
^ The location of the cooler Inlet and Outlet hoses described in this bulletin determines direction of
transmission fluid flow through the cooler.
^ The Inlet and Outlet position varies from model to model, and you must identify the location of the
Cooler Inlet and Outlet to successfully perform the cleaning procedure.
Refer to the SERVICE PROCEDURE Workflow to determine the procedure for a particular vehicle.
^ Use Charts A and B in the service procedure to establish the correct Cooler Inlet and Outlet
location for the vehicle you are servicing.
^ Then perform the Cleaning, Diagnosis, and Inspection as instructed.
Page 775
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2790
EC-RRO2-01 Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Diagrams
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 2655
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7126
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Page 2599
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Page 1202
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Diagram Information and Instructions
Fuel Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5198
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4777
Optional Splice
Example Diagrams
Page 288
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3735
Ground Distribution
Page 2853
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2942
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6327
CAUTION
4. Turn the ignition ON with the engine OFF.
^ The engine must be OFF (not running) during the reprogramming procedure.
^ For Hybrid vehicles, Make sure the dash warning lights are ON and the "READY" light is OFF.
^ Turn OFF all vehicle electrical loads such as exterior lights, interior lights, HVAC, blower, rear
defogger, audio, NAVI, seat heater, steering wheel
heater, etc.
CAUTION
5. Make sure the engine cooling fan(s) are not running.
If the cooling fans are running:
a. Turn the ignition OFF.
b. Wait for the engine to cool.
c. Turn the ignition ON (with engine OFF).
d. Make sure the engine cooling fans are not running.
6. Open / start ASIST on the C-III computer.
7. Select CONSULT Utilities, CONSULT-III, and Wait for the "Detecting VI/MI in progress"
message to clear.
Page 1073
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Locations
Crash Zone Sensor
SRS Component Parts Location
Page 4916
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 862
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Diagram Information and Instructions
EGR Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3856
Ignition Output Signal: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3080
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 432
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2376
20. The screen in Figure 9 is displayed during data transfer.
CAUTION: During data transfer:
^ DO NOT disturb the VI, DDL, or USB connections.
^ DO NOT try to start the engine or turn the ignition OFF.
^ The engine fans may turn on. This is normal.
NOTE:
^ If "Transfer To VI" reaches 100%, and "Transfer To ECU" does not start, or
^ The Error in Figure 9A displays.
a. DO NOT replace the ECM. The ECM is not damaged.
b. Check / make sure the battery voltage is above 12 V and all vehicle electrical loads are turned
OFF (see step 3 and 4).
c. Select Cancel Data Transmission, then click on the "Home" icon (upper left corner of C-III
screen) and re-start from the beginning (step 1).
Part 2
Page 1402
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
Page 2701
Intake Air Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION
Intake air temperature sensor Check resistance as shown in the figure. If NG, replace intake air
temperature sensor.
Page 9427
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7595
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
4. Make sure the "turn plates" and "slide" plates are in good working order:
^ The surface of the front turn plates must be level with (the same height as) the rack surface.
If height is not the same; have the equipment repaired before performing any alignments.
^ Make sure the front turn plates:
> Do not wobble (no up/down movement).
> Operate (slide and turn) smoothly in all directions.
If there is any issue with the turn plate operation - have the equipment repaired before performing
any alignments.
Page 6357
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7870
Torsion Bar: Service and Repair
Page 8186
Page 3721
Description (Part 1 Of 2)
Page 6301
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5147
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Front Wheel Bearing
Wheel Bearing: Testing and Inspection Front Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
- Adjust wheel bearing preload if there is any axial end play or wheel bearing does not turn
smoothly.
Page 9516
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4015
Page 6416
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3568
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 5901
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Shoe: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Locations
EGR Control Solenoid: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 7184
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Page 6118
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5043
Ground Distribution
Page 1674
Comments regarding vacuum pump use:
^ The lubricant contained inside the vacuum pump is not compatible with the lubrication for R-134a
A/C systems.
^ The vent side of the vacuum pump is exposed to atmospheric pressure, causing the vacuum
pump lubricant to migrate out of the pump if the pump is switched oft after evacuation (vacuuming)
and there is no shut off valve between the pump and the hose.
^ To prevent the migration of vacuum pump lubricant into service hoses, it is necessary to use a
valve (which can be manually opened or closed) near the connection of the service hose to the
pump.
^ On a vacuum pump which is equipped with an isolation valve (usually part of the vacuum pump),
closing this valve will isolate the service hose from the pump.
^ For pumps without an isolation valve, be certain that the service hose is equipped with a manual
shut off valve near the pump end of the hose.
^ Hoses which contain an automatic shut off valve at the end of the service hose must be
disconnected from the vacuum pump to prevent the migration of lubricant; as long as the hose is
connected, the valve is open and lubricant may migrate (with pump off).
^ One-way valves which open when vacuum is applied and close under a no vacuum condition are
not recommended, because this valve may restrict the pump's ability to pull a deep vacuum.
Page 6112
Description (Part 1 Of 2)
Page 4385
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6246
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2787
EC-RRO2-01 Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Diagrams
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Page 6585
Torque Converter Clutch Solenoid: Electrical Diagrams
EC-LKPU-01 Torque Converter Clutch Solenoid Valve (DTC: P1775)
Circuit Diagrams
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Suspension - Strut Leak Guideline
Suspension Strut / Shock Absorber: All Technical Service Bulletins Suspension - Strut Leak
Guideline
Classification: FA99-001
Reference: NTB99-001
NISSAN VEHICLE STRUT REPLACEMENT GUIDELINES
Date: February 15, 1999
APPLIED VEHICLES: All 1990-2000 Nissan vehicles
SERVICE INFORMATION This bulletin provides information to correctly identify leaking struts that
qualify for replacement under warranty. Use this bulletin to accurately diagnose a leaking strut,
which should be replaced. This bulletin also provides information to correctly identify a strut which
has slight oil seepage, a condition which is considered normal, does not affect the strut's operation
or performance and does not require replacement.
SERVICE PROCEDURE Strut leaks are caused by deterioration of the oil seal due to wear,
internal contamination, or external contamination (i.e. outside dust or anti corrosion spray entry).
These factors can affect the strut seal mechanism and result in a gross oil leak. In such an
instance, the strut needs to be replaced. NOTE:
If strut leakage is diagnosed in one strut, do not automatically replace struts on both sides. Replace
the leaking strut only.
Strut seepage occurs as a thin layer of oil sticks to the strut's shaft and passes through the seal. A
very small amount of oil can escape and stain the upper exterior of the strut. The amount of oil
seepage present on the strut can be affected by ambient temperature variations and driving
conditions (extreme hot or cold weather or rough road conditions can increase the amount of
seepage). Seepage is considered a normal condition since it does not affect the operation and
performance of the strut. Use the following information to identify strut leakage versus strut
seepage: The following criteria can also be applied to shock absorbers.
1. Strut Leakage - Strut Needs To Be Replaced:
Page 7364
Ground Distribution
Page 452
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6167
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4382
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5369
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 1055
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4295
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7022
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3152
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5636
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Diagram Information and Instructions
Radio/Stereo: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3359
Page 1538
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Service Specifications
Pressure Plate: Specifications Service Specifications
GENERAL SPECIFICATIONS
INSPECTION AND ADJUSTMENT
Page 4437
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8578
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 8746
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1137
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Diagram Information and Instructions
Oxygen Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4903
Description (Part 1 Of 2)
Page 6195
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 799
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Service and Repair
Power Steering Bleeding: Service and Repair
Air Bleeding Procedure
1. Raise front end of vehicle until wheels are clear of the ground. 2. Add fluid into oil tank to
specified level. Then quickly turn steering wheel fully to right and left and lightly touch steering
stoppers.
NOTE: Repeat steering wheel operation until fluid level no longer decreases.
3. Start engine. 4. Repeat step 2 above.
NOTE: Incomplete air bleeding will cause the following to occur. When this happens, bleed air
again.
a. Air bubbles in reservoir tank b. Clicking noise in oil pump c. Excessive buzzing in oil pump
NOTE: Fluid noise may occur in the valve or oil pump. This is common when the vehicle is
stationary or while turning steering wheel slowly. This does not affect performance or durability of
the system.
Page 8997
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 210
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2933
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 6073
Description (Part 1 Of 2)
Page 541
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9297
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9566
Tail Lamp: Electrical Diagrams
EL-TAIL/L-01 Parking, License, And Tail Lamps Wiring Diagram (Part 1 Of 2)
Page 1675
Comments regarding leak detector use:
^ Existing R-12 leak detectors currently will not detect R-134a.
^ Many R-134a leak detectors will detect R-12; check with the equipment manufacturer.
^ Always refer to and follow the equipment manufacturers recommendations when operating leak
detectors.
Comments regarding weight scale use:
^ If the scale allows electronic control of the flow of refrigerant through the scale, (i.e. internal
solenoid valves) be certain that the hose fitting size is 1/2"-16 ACME, and that no refrigerant other
than R-134a (along with only specified lubricant) have been used with the scale.
Charging Cylinder
^ The use of a charging cylinder is not recommended because:
^ The refrigerant may be vented into the air from the top valve of cylinder when filling the cylinder
with refrigerant.
^ The accuracy of a charging cylinder is generally less than that of an electronic scale or of quality
recycle/recharge equipment.
Service Procedures
^ The service procedures for R-134a A/C systems are basically the same as for R-12 A/C systems,
however, the following should always be kept in mind:
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose, and
throat. Use only approved recovery/recycling equipment to discharge R-134a systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service work.
^ R-134a and R-12 A/C components are not interchangeable. Cleaning of used (in service)
components for use with another type of refrigerant and/or lubricant is not an acceptable practice,
and may result in A/C system failure.
^ Always use the proper PAG oil when servicing an R-134a A/C system. The Nissan part number
for the appropriate PAG compressor oil can be found on the A/C specification label in the engine
compartment, and also in the Factory Service Manual, and on the label on the compressor. These
oils are only available from your Nissan Parts Department.
^ When leak checking an R-134a system, be certain that you are using a detector which will detect
R-134a.
^ As mentioned previously in this bulletin, the R-134a PAG lubricants absorb moisture; PAG oil
containers and A/C components containing PAG oil must remain tightly sealed until ready for use.
^ Unlike R-12 systems, R-134a systems do not exhibit a "clear sight glass", even when properly
charged. For this reason, the R-134a A/C systems have no sight glass.
^ With R-134a systems it is important to properly control the amount of refrigerant charged into the
system during system charging. A charging machine or weight scale must always be used during
charging for proper charge determination.
^ Questions regarding R-12 or R-134a should be addressed to your Regional Service Staff or the
FIXS Hotline.
Page 5404
Ground Distribution
Page 4176
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Specifications
Brake Light Switch: Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 7885
Wheel Bearing: Adjustments
PRELOAD ADJUSTMENT
Adjust wheel bearing preload after wheel bearing has been replaced or front axle has been
reassembled.
Adjust wheel bearing preload as follows:
1. Before adjustment, thoroughly clean all parts to prevent dirt entry.
2. Apply multi-purpose grease sparingly to the following parts:
- Threaded portion of spindle
- Contact surface between wheel bearing washer and outer wheel bearing
- Grease seal lip
- Wheel hub 18 - 23 grams (0.63 - 0.81 ounce)
3. Tighten wheel bearing lock nut with Tool to 78 - 98 Nm (58 - 72 ft. lbs.).
4. Turn wheel hub several times in both directions.
5. Loosen wheel bearing lock nut so that torque becomes 0 Nm (0 ft. lbs.).
6. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
7. Turn wheel hub several times in both directions.
8. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
9. Measure wheel bearing axial end play.
Axial end play: 0 mm (0 inch)
Page 9419
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Diagram Information and Instructions
Leak Detection Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6802
Wheel Bearing: Adjustments
PRELOAD ADJUSTMENT
Adjust wheel bearing preload after wheel bearing has been replaced or front axle has been
reassembled.
Adjust wheel bearing preload as follows:
1. Before adjustment, thoroughly clean all parts to prevent dirt entry.
2. Apply multi-purpose grease sparingly to the following parts:
- Threaded portion of spindle
- Contact surface between wheel bearing washer and outer wheel bearing
- Grease seal lip
- Wheel hub 18 - 23 grams (0.63 - 0.81 ounce)
3. Tighten wheel bearing lock nut with Tool to 78 - 98 Nm (58 - 72 ft. lbs.).
4. Turn wheel hub several times in both directions.
5. Loosen wheel bearing lock nut so that torque becomes 0 Nm (0 ft. lbs.).
6. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
7. Turn wheel hub several times in both directions.
8. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
9. Measure wheel bearing axial end play.
Axial end play: 0 mm (0 inch)
Recall 98V065000: Seat Belt May Get Cut/Sliced
Seat Belt: Recalls Recall 98V065000: Seat Belt May Get Cut/Sliced
Year: 1998 Make: NISSAN TRUCK Model: FRONTIER Year of Recall: '98 Type of Report: Vehicle
Potential Number of Units Affected: 20000 Summary:
Vehicle Description: Light duty passenger trucks equipped with bucket seats. In certain frontal
crashes, the front seat belt can slip between the seat bottom finisher and the seat back plastic
recliner handle where it can be cut by the sharp edge of the metal portion of the recliner lever.
If the seat belt is completely severed, it can increase the risk of serious injury to an occupant in a
crash.
Dealers will replace the plastic handle on the end of the seat back reclining lever with a different
shape handle which will prevent the seat belt from slipping between the handle and the seat.
Owner notification is expected to begin during April 1998. Owners who take their vehicles to an
authorized dealer on an agreed upon service date and do not receive the free remedy within a
reasonable time should contact Nissan at 1-800-NISSAN-1 (1-800-647-7261). Also contact the
National Highway Traffic Safety Administration's Auto Safety Hotline at 1-888-DASH-2-DOT
(1-888-327-4236).
Page 7360
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2515
Absolute Pressure Sensor: Connector Views
Absolute Pressure Sensor
Circuit Connectors
Front
Suspension Strut / Shock Absorber: Service and Repair Front
REPLACEMENT
1. Support lower link with jack.
2. Remove bolt and nut that hold shock absorber.
3. Reverse procedure to install.
INSPECTION
Except for nonmetallic parts, clean all parts with suitable solvent and dry with compressed air.
Use compressed air to blow dirt and dust off of nonmetallic parts. Check for oil leakage and cracks. Replace if necessary.
- Check piston rod for cracks, deformation and other damage. Replace if necessary.
- Check rubber parts for wear, cracks, damage and deformation. Replace if necessary.
Page 3550
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Interior - Seat Belt Latch Plate Button Missing
Technical Service Bulletin # 99-022C Date: 030805
Interior - Seat Belt Latch Plate Button Missing
Classification: RS99-001C
Reference; NTB99-022C
Date: August 5, 2003
FRONT SEAT BELT LATCH PLATE RETAINING BUTTON MISSING
The Applied Vehicles and Service Information sections of this bulletin have been revised. Please
discard all previous copies of NTB99-022.
APPLIED VEHICLES
IF YOU CONFIRM:
^ The front seat belt latch plate of an applied vehicle slides to the end of the seat belt, sliding down
the belt to the floor at the base of the B pillar.
^ This happens because the seat belt latch plate retaining button is lost or damaged.
^ The seat belt and retractor are in serviceable condition,
ACTION:
Use this bulletin to replace the retaining button and clean, and refurbish the driver's and
passenger's front seat belt "D" rings.
NOTE:
This button is required to hold the seat belt latch plate at the shoulder location, preventing it from
sliding to the floor when the belt is released.
NOTE:
The purpose of "ACTION" is to give you a quick idea of the work you will be performing. You must
closely follow the entire Service Procedure as it contains information that is essential to
successfully completing this repair.
Page 1048
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5547
Idle Speed/Throttle Actuator - Electronic: Testing and Inspection
COMPONENT INSPECTION IACV-AAC Valve
Disconnect IACV-AAC valve harness connector.
- Check IACV-AAC valve resistance.
Resistance: Approximately 10 Ohms [at 25° C (77° F)]
- Check plunger for seizing or sticking.
- Check for broken spring.
Page 4344
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 3671
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6656
- Replace valve springs if deformed or fatigued.
Control Valves Inspection Check sliding surfaces of valves, sleeves and plugs.
Assembly
1. Lubricate the control valve body and all valves with ATF. Install control valves by sliding them
carefully into their bores.
Page 5696
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1180
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Axle Shaft, Conventional Fixed/Floating
Axle Shaft: Service and Repair Axle Shaft, Conventional Fixed/Floating
REMOVAL
NOTE:
- Before removing the rear axle, disconnect the ABS wheel sensor from the assembly. Then move
it away from the axle. Failure to do so may result in damage to the sensor wires and the sensor
becoming inoperative.
- Wheel bearing does not require maintenance.
- If growling noise is emitted from wheel bearing during operation, replace wheel bearing assembly.
- If the wheel bearing assembly is removed, it must be replaced. The old assembly must not be
re-used.
1. Disconnect parking brake cable and brake tube.
2. Remove nuts securing wheel bearing cage with baffle plate.
3. Draw out axle shaft with Tool.
NOTE: When drawing out axle shaft, be careful not to damage oil seal.
4. Remove O-ring.
5. Remove oil seal.
Page 9247
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2783
EC-FRO2/H-01 Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Diagrams
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Page 1389
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Page 2714
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Specifications
Clockspring Assembly / Spiral Cable: Specifications Spiral Cable
Spiral Cable
Driver Air Bag Module Special Bolt(s) 15 - 25 Nm
Page 6156
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2409
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4208
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3297
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6880
Description and Operation
EGR Backpressure Transducer: Description and Operation
SYSTEM DESCRIPTION
The EGRC-BPT valve monitors exhaust pressure to activate the diaphragm, controlling throttle
body vacuum applied to the EGR valve. In other words, recirculated exhaust gas is controlled in
response to positioning of the EGR valve or to engine operation.
Page 1312
Ground Distribution
Specifications
Idle Speed/Throttle Actuator - Electronic: Specifications
Resistance Approx. 10 ohms at 77 deg F
Page 980
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6814
Axle Nut: Service and Repair Diagrams
Page 1671
Comments regarding tubes and hoses:
^ Some R-134a tubes and hoses have reversed male/female connections to prevent
interchangeability with R-12 components.
R134A Service Tools & Equipment
^ R-12 and R-134a require separate and non-interchangeable sets of recovery, recycle, and
recharge equipment, because the refrigerants and lubricants are not compatible and cannot be
mixed even in the smallest amounts.
^ DO NOT attempt to use one set of equipment for both R-12 and R-134a, as all equipment
contains residual amounts of refrigerant and/or lubricant,
Page 2824
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 201
Ground Distribution
Specifications
Fuel Pressure: Specifications PRESSURE
PRESSURE
Fuel pressure with vacuum hose connected 235 kpa (34 psi)
Fuel pressure with vacuum hose disconnected 294 kpa (43 psi)
Page 7650
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 295
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5155
Ground Distribution
Page 1109
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 396
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4517
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9150
Transmission Shift Position Indicator Lamp: Electrical Diagrams
EL-AT/IND-01 Wiring Diagram
Circuit Diagrams
Wiring Diagram
A/T Indicator Circuit Connectors
Page 4734
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 132
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Diagram Information and Instructions
Oxygen Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8766
Page 6660
- Install control valves.
Page 6084
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1778
TRANSFER CASE DIAGNOSTIC TABLE
Page 4465
Ground Distribution
Specifications
Stabilizer Link: Specifications
TIGHTENING SPECIFICATIONS
Link Pins ..............................................................................................................................................
.................................. 16 - 22 Nm (12 - 16 ft. lbs.)
Page 9548
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7461
Fuse: Locations Fuse ID
Power Supply Routing: Schematic (Part 1 Of 2)
Page 7367
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7825
c. Remove ball joint tightening nuts.
Support lower link with jack.
d. Remove knuckle spindle from upper and lower links.
INSPECTION
Knuckle Spindle Check knuckle spindle for deformation, cracks and other damage by using a magnetic exploration
or dyeing test.
Bearing Spacer (2WD) Check bearing spacer for damage.
Needle Bearing (4WD) Check needle bearing for wear, scratches, pitting, flaking and burn marks.
INSTALLATION
1. Apply multi-purpose grease and install needle bearing into knuckle spindle. (4WD)
CAUTION: Make sure that needle bearing is facing in the proper direction.
2. Install knuckle spindle to upper and lower ball joints with lower link jacked up.
CAUTION: Make sure that oil and grease do not come into contact with tapered areas of ball joint,
knuckle spindle and threads of ball joint.
3. Connect tie-rod to knuckle spindle.
4. After installing knuckle spindle, adjust wheel bearing preload.
Refer to Wheel Bearing.
Page 190
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Locations
Seat Belt Buckle Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 9367
Headlamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
A/C - System Changes As Result of R-134A Refrigerant
Technical Service Bulletin # 92-001 Date: 920101
A/C - System Changes As Result of R-134A Refrigerant
Classification: HA92-OO1
Reference: NTB92-OO1
Date: January 1992
A/C SYSTEM CHANGES FOR R-134A REFRIGERANT
(ALL MODELS)
APPLIED VEHICLE(S): All Models
Service Information
Introduction
Due to its harmful effect on the ozone layer, R-12 is being phased out and replaced by R-134a,
which does not harm the ozone layer. While the R-134a A/C system is very similar to an R-12 A/C
system, the differences in the refrigerant, lubricants, and service equipment are important.
Nissan A/C systems will change from R-12 to R-134a at the time of new vehicle (full model change)
introduction, or in some cases by model year update to an existing model line.
This bulletin describes all of the general differences between the R-12 and R-134a systems. For
details of an R-134a system for a specific model, refer to that model's service manual or new
product information.
Refrigerant Handling Precautions
^ R-12 refrigerant and R-134a refrigerant must never be mixed, even in the smallest amounts, as
they are incompatible with each other. If the refrigerants are mixed, compressor failure is likely to
occur.
^ Use only specified lubricant for the R-134a A/C system and R-134a components. If lubricants
other than those specified are used, compressor failure is likely to occur.
^ The specified R-134a lubricant absorbs moisture from the atmosphere at a rapid rate, therefore
the following handling precautions must be observed:
^ When removing refrigerant components from a vehicle, immediately cap (seal) the component to
minimize the entry of moisture from the atmosphere.
^ When installing refrigerant components to a vehicle, do not remove the caps (unseal) until just
before connecting the components. Also, complete the connection of all refrigerant tubes and
hoses without delay to minimize the entry of moisture into the system.
^ Use the specified lubricant from a sealed container only. Containers must be re-sealed
immediately after dispensing the lubricant. Lubricant in containers which are not properly sealed
will become moisture saturated. Such lubricant is no longer suitable for use and should be properly
disposed.
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose and
throat. Use only approved service equipment meeting SAE standards to discharge R-134a
Systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service.
^ Always wear eye and hand protection (goggles and gloves) when working with any refrigerant or
air conditioning system.
^ Do not store or heat refrigerant containers above 125° (52°C).
^ Do not heat a refrigerant container with an open flame; if container warming is required, place the
bottom of the container in a pail of warm water.
^ Do not intentionally drop, puncture, or incinerate refrigerant containers.
^ Keep refrigerant away from open flames: hazardous gas will be produced if refrigerant burns.
^ Refrigerant will displace oxygen, therefore be certain to work in well ventilated areas to prevent
suffocation.
Page 4181
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Steering/Suspension - Wheel Bearing Collision Damage
Wheel Bearing: Technical Service Bulletins Steering/Suspension - Wheel Bearing Collision
Damage
Classification: FA10-006
Reference: NTB10-126
Date: October 21, 2010
WHEEL BEARING COLLISION DAMAGE
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Impacts to wheel bearings (such as a collision or other suspension damage) may create slight
indents in the bearing surfaces. These indents may not be visible but can cause bearing noise.
NOTE:
Hub/bearing replacement due to impact (collision or other suspension damage) is not a
warrantable repair
If a vehicle has visible wheel or suspension damage due to impact (collision or other suspension
damage), it is recommended that the wheel bearing assembly be inspected as follows:
1. Remove the hub/bearing assembly from the vehicle.
2. Hold the hub/bearing assembly with both hands.
3. Rotate the hub/bearing assembly in both directions (clockwise and counterclockwise).
4. If any gritty or rough feeling is detected in the bearing replace it with a new one.
Page 6627
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 821
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6702
Page 6126
Ground Distribution
Page 3803
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Engine Controls - Seized O2 Sensor Removal Procedure
Technical Service Bulletin # 10-009 Date: 100119
Engine Controls - Seized O2 Sensor Removal Procedure
Classification: EM09-015
Reference: NTB10-009
Date: January 19, 2010
REMOVAL PROCEDURE FOR SEIZED EXHAUST SENSOR
APPLIED VEHICLES: All Nissan vehicles
SERVICE INFORMATION
If an exhaust sensor is seized in the exhaust manifold/catalyst/front tube, perform the procedure
described in this bulletin to remove the sensor and prevent unnecessary replacement of the
exhaust manifold/catalyst/front tube.
In most cases this procedure is successful. This is because the threads of the exhaust sensors are
made of a softer material than the part they thread into on the exhaust manifold/catalyst/front tube.
NOTE:
The replacement of exhaust manifolds/catalysts/front tubes for stripped exhaust sensor threads
may not be considered a warrantable expense.
This procedure can be performed by two methods:
Method #1 - If the Sensor Can Be Easily Accessed
^ The procedure can be performed on the vehicle.
^ The exhaust manifold/catalyst/front tube will not have to be removed.
Method #2 - If the Sensor Cannot Be Easily Accessed
^ The exhaust manifold/catalyst/front tube must be removed from the vehicle.
^ The procedure will be performed with the part clamped in a vice.
Method #2 is described in this bulletin. Method #1 is the same as Method #2 except that it is
performed on the vehicle.
Service Procedure
Rust Penetrant
Recommended rust penetrants to be used in this procedure:
Page 5496
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2724
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8203
^ The graph on the following page shows that PAG oil left open to air (e.g. in an unsealed
container) will absorb 2% moisture (by weight) in 120 hours (5 days).
^ PAG containers, and any A/C component which contains PAG oil (such as the compressor)
should remain tightly capped and sealed until ready for use.
^ If you believe that a container of PAG oil may not have been adequately re-sealed after opening,
dispose of the oil properly and use oil from a new sealed container.
^ When installing or servicing an A/C system, the refrigerant tube and hose connections should be
sealed (all connections made and tightened to specification) without delay.
^ The above precautions will keep the absorption of moisture into the system to a minimum. Using
moisture saturated PAG oil in R-134a systems may lead to the formation of acids and related
system damage or failure.
^ Do not allow refrigerant oil (Nissan A/C System Oil Type S) to contact styrofoam, as the lubricant
will damage this material.
Page 9244
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4121
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 673
EC-RRO2-01 Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Diagrams
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Specifications
Torsion Bar: Specifications
TIGHTENING SPECIFICATIONS
Front:
Lower Link Spindle
.................................................................................................................................................... 109 147 Nm (80 - 108 ft. lbs.) Spring Torque Arm:
Small Bolt ............................................................................................................................................
...................... 45 - 60 Nm (33 - 44 ft. lbs.) Large Bolt .........................................................................
....................................................................................... 89 - 118 Nm (66 - 87 ft. lbs.)
Rear:
Anchor Arm Bolt
.............................................................................................................................................................
30 - 40 Nm (22 - 30 ft. lbs.)
Page 4123
Absolute Pressure Sensor: Connector Views
Absolute Pressure Sensor
Circuit Connectors
Page 5631
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2469
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6754
If the rear axle bearing, rear axle seal, or Anti-lock Brake System (ABS) rotor ring need to be
replaced on one of the applied vehicles listed above, use the "Rear Axle Bearing Removal Kit" P/N
J-45073 to remove these pressed-on components. This kit replaces special tools J-25852-B and
J-25864-01, which were previously used for similar types of work, but are now obsolete and cannot
be used on the current applied vehicles (listed above). Refer to the "Essential Tool Shipment" flyer
shown for additional information.
Page 6960
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6857
3. Adjust thrust clearance between bearing and snap ring to zero by tapping yoke.
4. Check to see that journal moves smoothly and check for axial play.
Axial play: 0.02 mm (0.0008 inch) or less
Page 1314
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 938
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6522
9. Disconnect the key lock rod from the A/T shifter assembly by removing the pin clip. Retain this
pin clip for reuse (see Figure 6).
10. Disconnect the brake pedal interlock solenoid harness located under the steering column
assembly (see Figure 6).
11. Disconnect the A/T cable from the rear of the A/T shifter assembly by prying the connector
straight back with a door trim removal tool (see Figure 7).
12. Remove the (2) 6mm bolts securing the assembly (see Figure 8).
Page 6624
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7031
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4907
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4973
Canister Vent Valve: Testing and Inspection
COMPONENT INSPECTION EVAP Canister Vent Control Valve
With CONSULT
Check air passage continuity. Perform "VENT CONTROL/V" in "ACTIVE TEST" mode.
OR
Without CONSULT
If NG or operation takes more than 1 second, clean valve using air blower or replace as necessary.
If portion (B) is rusted, replace EVAP canister vent control valve. Make sure new O-ring is installed
properly.
A/C - Idler Pulley Whine Noise at 3000 rpm
Idler Pulley: Customer Interest A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 5753
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 5194
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2681
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5206
EGR Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The EGR temperature sensor detects temperature changes in the EGR passage way. When the
EGR valve opens, hot exhaust gases flow, and the temperature in the passage way changes. The
EGR temperature sensor is a thermistor that modifies a voltage signal sent from the ECM. This
modified signal then returns to the ECM as an input signal. As the temperature increases, EGR
temperature sensor resistance decreases. This sensor is not used to control the engine system. It
is used only for the on board diagnosis.
Page 2911
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 7114
If necessary, adjust brake pedal free height.
Fig. 8 Adjusting Input Rod
1. Loosen lock nut and adjust pedal free height by turning brake booster input rod. Then tighten
lock nut.
NOTE: Make sure that the tip of input rod stays inside.
2. Loosen lock nut and adjust clearance "C" with stop lamp switch respectively. Then tighten lock
nut. 3. Check pedal free play.
NOTE: Make sure that stop lamp is off when pedal is released.
4. Check brake pedal's depressed height while engine is running. If lower than specification, check
for leaks, air in system, or damage to components
(master cylinder, wheel cylinder, etc.). Then make necessary repairs.
Spark Plug Torque Values
Spark Plug: Specifications Torque
Torque
Spark plug torque 14-22 ft. lb
Page 145
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7599
> Engine coolant and lubricating oils at specified levels
> Spare tire, jack, hand tools, and floor mats in designated positions
NOTE:
Refer to the appropriate Service Manual for information about any of the above checks and
inspections.
4. Check the target mounts.
^ If there is any visual damage (bent, worn, cracked, etc), have the equipment repaired before
performing any alignments.
^ Make sure the target mounts are properly adjusted and configured (see Figure 11).
NOTE:
The target mount example shown in Figure 11 is for Hunter "camera type" alignment machines.
Follow the operation manual for your specific equipment.
Page 6407
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4401
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the front heated oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 807
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4598
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4414
Optional Splice
Example Diagrams
Page 2450
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5270
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7333
Battery: Testing and Inspection Specific Gravity Check
1. Read hydrometer and thermometer indications at eye level. 2. Use the chart below to correct
your hydrometer reading according to electrolyte temperature.
Hydrometer Temperature Correction
Page 3196
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 3516
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9371
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9354
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2919
Optional Splice
Example Diagrams
Page 1169
Ground Distribution
Page 8111
Page 2146
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 9564
Type Of Standardized Relays (Part 2 Of 2)
Page 5488
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4442
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 654
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Engine Compartment
Fuse: Locations Engine Compartment
Component Parts And Harness Connector Location
Page 7815
Control Arm: Service and Repair Upper, Front
Page 8309
disconnected, the spiral cable may snap by turning the steering wheel beyond the specified
number of turns. Always perform SRS Self-diagnosis after installing the air bag module.
6. Connect spiral cable to air bag harness and tighten screws.
Install steering column covers.
Installing Steering Wheel
7. Install steering wheel, setting spiral cable pin guide, and pull spiral cable connectors through. 8.
Connect horn connector and engage spiral cable with pawls in steering wheel. 9. Tighten steering
wheel nut.
Steering Wheel Nut: 29 - 39 N-m (3.0 - 4.0 kg-m, 22 - 29 ft-lb)
Special Bolts Torque
10. Position driver air bag module and tighten with new special bolts. 11. Connect driver air bag
module connector. 12. Install all lids. 13. Connect both battery cables. 14. Conduct Self-diagnosis
to ensure entire SRS operates properly (Use CONSULT or warning lamp check.). Turn the steering
wheel fully to the right
and left to check that the spiral cable is set in the neutral position.
15. If air bag warning lamp blinks (at the User mode), it shows the spiral cable may be snapped
due to its improper position. Perform Self-diagnosis
again. (Use CONSULT or warning lamp check.) If a malfunction is detected, replace the spiral
cable with a new one.
NOTE: After replacement, perform Self-diagnosis for SRS Refer to "SRS Operation Check".
Page 766
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 5974
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1933
Tightening procedure.
Note: Apply new engine oil to bolt threads and seat surfaces.
a. Tighten all bolts to 2 Nm (0.2 kg-m, 17 inch lbs.). b. Tighten all bolts to 9.0 to 11.8 Nm (0.92 to
1.2 kg-m, 79.9 - 104.2 inch lbs.).
Cylinder Head
Tighten cylinder head bolts in numerical order a. Tighten all bolts to 29 Nm (3.0 kg-m, 22 ft. lbs.). b.
Tighten all bolts to 79 Nm (8.1 kg-m, 59 ft. lbs.). c. Loosen all bolts completely d. Tighten all bolts to
25 to 34 Nm (2.5 to 3.5 kg-m, 18 to 25 ft. lbs.). e. Turn all bolts 86 +5/-0 degrees clockwise, or if an
angle wrench is not available, tighten bolts to 75 to 84 Nm (7.6 to 8.6 kg-m, 55 to 62 ft. lbs.).
Crank Shaft
Main Bearing Cap Bolts Removal Sequence
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Engine Controls - Seized O2 Sensor Removal Procedure
Technical Service Bulletin # 10-009 Date: 100119
Engine Controls - Seized O2 Sensor Removal Procedure
Classification: EM09-015
Reference: NTB10-009
Date: January 19, 2010
REMOVAL PROCEDURE FOR SEIZED EXHAUST SENSOR
APPLIED VEHICLES: All Nissan vehicles
SERVICE INFORMATION
If an exhaust sensor is seized in the exhaust manifold/catalyst/front tube, perform the procedure
described in this bulletin to remove the sensor and prevent unnecessary replacement of the
exhaust manifold/catalyst/front tube.
In most cases this procedure is successful. This is because the threads of the exhaust sensors are
made of a softer material than the part they thread into on the exhaust manifold/catalyst/front tube.
NOTE:
The replacement of exhaust manifolds/catalysts/front tubes for stripped exhaust sensor threads
may not be considered a warrantable expense.
This procedure can be performed by two methods:
Method #1 - If the Sensor Can Be Easily Accessed
^ The procedure can be performed on the vehicle.
^ The exhaust manifold/catalyst/front tube will not have to be removed.
Method #2 - If the Sensor Cannot Be Easily Accessed
^ The exhaust manifold/catalyst/front tube must be removed from the vehicle.
^ The procedure will be performed with the part clamped in a vice.
Method #2 is described in this bulletin. Method #1 is the same as Method #2 except that it is
performed on the vehicle.
Service Procedure
Rust Penetrant
Recommended rust penetrants to be used in this procedure:
Page 3762
Optional Splice
Example Diagrams
Page 130
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 565
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4159
Type Of Standardized Relays (Part 2 Of 2)
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 7927
- Remove bearing outer races with suitable brass bar.
INSPECTION
Thoroughly clean wheel bearings and wheel hub.
Wheel Bearings Make sure wheel bearings roll freely and are free from noise, cracks, pitting and wear.
Wheel Hub Check wheel hub for cracks by using a magnetic exploration or dyeing test.
ASSEMBLY
1. Install bearing outer race with Tool until it seats in hub.
2. On models with ABS, install the sensor rotor using suitable drift and press.
Always replace sensor rotor with new one. Pay attention to the direction of front sensor rotor as
shown in figure.
3. Pack multi-purpose grease in wheel hub and hub cap.
Page 6844
- Remove bearing outer races with suitable brass bar.
INSPECTION
Thoroughly clean wheel bearings and wheel hub.
Wheel Bearings Make sure wheel bearings roll freely and are free from noise, cracks, pitting and wear.
Wheel Hub Check wheel hub for cracks by using a magnetic exploration or dyeing test.
ASSEMBLY
1. Install bearing outer race with Tool until it seats in hub.
2. On models with ABS, install the sensor rotor using suitable drift and press.
Always replace sensor rotor with new one. Pay attention to the direction of front sensor rotor as
shown in figure.
3. Pack multi-purpose grease in wheel hub and hub cap.
Page 7822
Front Steering Knuckle: Service and Repair
Page 8032
- Remove bearing outer races with suitable brass bar.
INSPECTION
Thoroughly clean wheel bearings and wheel hub.
Wheel Bearings Make sure wheel bearings roll freely and are free from noise, cracks, pitting and wear.
Wheel Hub Check wheel hub for cracks by using a magnetic exploration or dyeing test.
ASSEMBLY
1. Install bearing outer race with Tool until it seats in hub.
2. On models with ABS, install the sensor rotor using suitable drift and press.
Always replace sensor rotor with new one. Pay attention to the direction of front sensor rotor as
shown in figure.
3. Pack multi-purpose grease in wheel hub and hub cap.
Page 472
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4957
Ground Distribution
Page 6061
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 958
Leak Detection Sensor: Testing and Inspection
COMPONENT INSPECTION EVAP Control System Pressure Sensor
1. Remove EVAP control system pressure sensor with its harness connector connected. 2.
Remove hose from EVAP control system pressure sensor. 3. Use pump to apply vacuum and
pressure to EVAP control system pressure sensor as shown in figure. 4. Check output voltage
between ECM terminal (62) and engine ground.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -20 kPa (-150 mmHg, -5.91 inHg) or pressure over 20.0 kPa (150
mmHg, 5.91 inHg).
5. If NG, replace EVAP control system pressure sensor.
Page 5967
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6115
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3136
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7997
Axle Nut: Specifications Front Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Page 7024
Ground Distribution
Page 9207
Ground Distribution
Page 4190
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2148
Idle Speed: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Specifications
Page 3823
Type Of Standardized Relays (Part 2 Of 2)
Page 4911
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9454
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Locations
Clutch Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2713
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 876
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4317
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7755
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Upper Ball Joint
Ball Joint: Service and Repair Upper Ball Joint
UPPER AND LOWER BALL JOINT
REPLACEMENT
- Separate knuckle spindle from upper and lower links. Refer to Steering Knuckle.
INSPECTION
- Check joints for play. If ball is worn and play in axial direction is excessive or joint is hard to
swing, replace.as a upper link or lower link. Axial end play "C":
Upper link = 0 mm (0 inch) Lower link
(2WD) = 1.3 mm (0.051 inch) or less (4WD) = 0.2 mm (0.008 inch) or less
- Check dust cover for damage. Replace dust cover and dust cover clamp if necessary.
Diagram Information and Instructions
Torque Converter Clutch Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 583
Intake Air Temperature Sensor: Electrical Diagrams
EC-IATS-01 Intake Air Temperature Sensor (DTC: P0110)
Circuit Diagrams
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Page 5911
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 6632
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4944
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6414
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8346
PARTS INFORMATION
CLAIMS INFORMATION
SERVICE PROCEDURE
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 2).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 2).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
Page 8634
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 911
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3495
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 8209
Page 1193
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3260
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2772
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 414
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6355
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2518
Absolute Pressure Sensor: Testing and Inspection
COMPONENT INSPECTION Absolute pressure sensor
1. Remove absolute pressure sensor with its harness connector connected. 2. Remove hose from
absolute pressure sensor. 3. Turn ignition switch "ON" and check output voltage between ECM
terminal (45) and engine ground.
The voltage should be 3.2 to 4.8 V.
4. Use pump to apply vacuum of -26.7 kPa (-200 mmHg, -7.87 inHg) to absolute pressure sensor
as shown in figure and check the output voltage.
The voltage should be 1.0 to 1.4 V lower than the value measured in step 3.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -93.3 kPa (-700 mmHg, -27.56 inHg) or pressure over 101.3 kPa
(760 mmHg, 29.92 in Hg).
5. If NG, replace absolute pressure sensor.
Page 1104
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7228
Brake Hose/Line: Testing and Inspection
CAUTION: If leakage occurs around joints, retighten or, if necessary, replace damaged parts.
1. Check brake lines (tubes and hoses) for cracks, deterioration or other damage. Replace any
damaged parts. 2. Check for oil leakage by fully depressing brake pedal while engine is running.
Page 5142
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5942
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4238
ECCS Component Parts Location
ECCS Component Parts Location
Page 7177
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Oxygen Sensor - Thread Cleaning and Other Precautions
Catalytic Converter: All Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 2940
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7113
Brake Pedal Assy: Adjustments
COMPONENTS
ADJUSTMENT
- Check brake pedal free height from melt sheet.
- H: Free height: Automatic Transmission: 212 - 222 mm (8.35 - 8.74 inch)
- Manual Transmission: 209 - 219 mm (8.23 - 8.62 inch)
- D: Depressed height (under force of 490 N (50 kg, 110 lbs.) with engine running): 120 mm (4.72
inch)
- C: Clearance between pedal stopper and threaded end of stop lamp switch: 0.3 - 1.0 mm (0.012 0.039 inch)
A: Pedal free play: 1 - 3 mm (0.04 - 0.12 inch)
Page 2491
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6125
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5897
Ground Distribution
Page 875
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Locations
Daytime Running Lamp Control Unit: Locations
Engine Compartment
Engine Compartment
Oxygen Sensor - Thread Cleaning and Other Precautions
Exhaust Pipe: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 3961
EC-RRO2-01 Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Diagrams
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Connectors
Response Monitoring
Locations
Power Window Relay: Locations
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 8520
Engine Compartment
Engine Compartment
Page 9213
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Paint - Removal of Environmental Particles
Paint: All Technical Service Bulletins Paint - Removal of Environmental Particles
Classification: BT01-048a
Reference: NTB01-087a
Date: December 17, 2001
ALL NISSAN; REMOVAL OF ENVIRONMENTAL IRON PARTICLES FROM PAINT
This bulletin has been revised. The Claims Information was updated. Please discard paper copies
NTB01-087.
APPLIED VEHICLE: All Nissan Vehicles
SERVICE INFORMATION
Environmental iron particles can be identified as follows:
^ Small rust/orange dots with black centers on light colored surfaces,
^ Small white or silver dots with a "rainbow hue" around the edge on dark colored surfaces.
In both cases, the surface will feel rough or gritty to the touch.
The steps in the Service Procedure have been found effective in most cases for removing
environmental iron particles (sometimes called "rail dust") from a vehicle's painted surfaces.
Refer to the Service Procedure of this bulletin for instructions on repairing this type of
environmental damage if it should occur. However, refer to the Claims Information section at the
end of this bulletin for important claims information concerning environmental claims.
SERVICE PROCEDURE
CAUTION:
In most cases these environmental iron particles can be easily removed. However, the longer they
are left untreated, the more damage they can create, and the harder they are to remove. In rare,
more severe cases, spots of paint blistering can occur.
1. Use a magnifying glass to check if iron particles are present.
2. Wash the vehicle with soap and warm water. Completely dry the vehicle.
Note:
There are 3 Steps of damage repair possible that should be completed in the order given.
^ Start with Step A first. Complete Step B if necessary.
^ Proceed to Step C only if iron particles are not removed in the preceding steps.
3. Repair the paint damage.
A. Light/Medium Damage (surface level only)
Remove the iron particles using a clay bar such as Clay Magic(TM) by Auto Wax Company, Inc.,
SPC40 Overspray Clay by PPG, a "clay like" surface cleaning material such as Erazer(TM) by
K.E.L. Mfg., or equivalent.
WARNING:
Read and follow the manufacturer's procedure before using.
B. Medium Damage (surface level only)
Remove the iron particles using a chemical cleaning product such as:
Page 4125
Absolute Pressure Sensor: Description and Operation
COMPONENT DESCRIPTION
The absolute pressure sensor is connected to the MAP/BARO switch solenoid valve by a hose.
The sensor detects ambient barometric pressure and intake manifold pressure and sends the
voltage signal to the ECM. As the pressure increases, the voltage rises.
Page 5489
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6204
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 454
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 6098
Type Of Standardized Relays (Part 2 Of 2)
Page 971
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5965
Description (Part 1 Of 2)
Page 5174
EGR Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 9361
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5123
Type Of Standardized Relays (Part 2 Of 2)
Page 4721
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 567
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6709
4. Use hose clamps and temporarily connect a length of suitable hose between the bypass valve
fittings that go to the oil cooler (see Figure 6).
5. Pinch/clamp the temporary hose to prevent flow through the loop (see Figure 6).
6. Cover the end of the bypass inlet line with a shop rag to catch any oil spray.
7. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) into the outlet for 10 second
intervals, three times (see Figure 6).
8. Re-connect the transmission lines and remove the temporary hose loop (see Figure 7).
9. Go to Diagnosis Procedure (All Vehicles).
1996-98 Pathfinder (R50) Cleaning the Optional Air Cooled Oil-Cooler (Air Cooler)
1. Place an oil drain pan under the A/T air cooler Inlet and Outlet hoses (see Points A and B,
Figure 8).
2. Disconnect the Inlet and Outlet hoses from the air cooler (see Points A and B, Figure 8).
3. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-AM006) into the air cooler Outlet hose (see Point B, Figure 8).
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath the vapors or the spray mist.
Page 2889
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Locations
Page 755
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 6888
Page 374
Description (Part 1 Of 2)
Page 7475
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 1056
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 920
Type Of Standardized Relays (Part 2 Of 2)
Page 5370
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 6677
Page 6474
Description (Part 1 Of 2)
Page 5350
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3043
EGR Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3296
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 954
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3293
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 596
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8900
Passenger Compartment (Part 1 Of 2)
Engine Compartment
Fuse: Locations Engine Compartment
Component Parts And Harness Connector Location
A/C - Idler Pulley Whine Noise at 3000 rpm
Drive Belt: Customer Interest A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 3949
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7601
Once you have set the target position, DO NOT reset it at anytime during the alignment process.
6. Begin the alignment procedure.
^ Follow all of the instructions for your particular equipment.
^ Refer to the Service Manual for alignment specifications.
If your equipment requires "rolling compensation". follow these additional tips:
^ DO NOT push or pull on the vehicle body.
IMPORTANT:
After performing "rolling compensation", DO NOT reset the target position.
When performing "caster sweep". follow these tips:
Page 3494
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 1273
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4699
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3749
Page 3116
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6312
Alignment Specifications
Page 5777
Ground Distribution
Page 5274
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7104
Wheel Speed Sensor: Service and Repair Rear
REPLACEMENT
Refer to the illustration when servicing
Specifications
Fuel Pressure: Specifications PRESSURE
PRESSURE
Fuel pressure with vacuum hose connected 235 kpa (34 psi)
Fuel pressure with vacuum hose disconnected 294 kpa (43 psi)
Page 3591
Ground Distribution
Page 3144
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4110
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5796
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 4672
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3542
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1424
Once you have set the target position, DO NOT reset it at anytime during the alignment process.
6. Begin the alignment procedure.
^ Follow all of the instructions for your particular equipment.
^ Refer to the Service Manual for alignment specifications.
If your equipment requires "rolling compensation". follow these additional tips:
^ DO NOT push or pull on the vehicle body.
IMPORTANT:
After performing "rolling compensation", DO NOT reset the target position.
When performing "caster sweep". follow these tips:
Page 8707
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 2726
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6001
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5069
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6161
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 941
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2308
2. Apply a continuous bead of liquid gasket to mating surface of water pump.
- Use Genuine RTV Silicone Sealant Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Page 7069
Ground Distribution
Page 8982
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 8738
Ground Distribution
Page 1605
Refer to the "Essential Tool Shipment" flyer shown for additional information.
This special tool is "Essential" and was automatically sent to all Nissan dealers.
Additional tools can be ordered from Tech-Mate (1-800-662-2001) for $196.43 each.
SERVICE PROCEDURE
Refer to the Operating Instructions supplied with the tool for complete refill procedure.
Key points to ensure the cooling system is purged of air bubbles are as follows;
Always start with an Empty Radiator
For step 2 of the Operating Instructions:
^ To hold the coolant mixture supply, use a clean bucket or other suitable container that is larger
than the cooling system's total capacity.
^ The amount of coolant mixture in the refill supply must be more than needed to fill the system
completely.
Page 8953
With the ignition switch in the ON or START position, power is supplied:
^ through 7.5 A fuse [No. [5], located in the fuse block (J/B)]
^ to warning chime unit terminal (1).
Ground is supplied to warning chime unit terminal (8) through body grounds (M14) and (M68).
When a signal, or combination of signals, is received by the warning chime unit, the warning chime
will sound.
Ignition key warning chime With the key in the ignition key cylinder, the ignition switch in the OFF or
ACC position, and the driver's door open, the warning chime will sound. A battery positive voltage
is supplied:
^ from key switch terminal (2)
^ to warning chime unit terminal (5).
Ground is supplied:
^ to warning chime unit terminal (7)
^ from door switch LH terminal (2).
Door switch LH terminal (3) is grounded through body grounds (M14) and (M68).
Light warning chime With ignition switch OFF or ACC position, driver's door open, and lighting
switch in 1ST or 2ND position, the warning chime will sound. A battery positive voltage is supplied:
^ from lighting switch terminal (12)
^ to warning chime unit terminal (4).
Ground is supplied:
^ to warning chime unit terminal (7)
^ from door switch LH terminal (2).
Door switch LH terminal (3) is grounded through body grounds (M14) and (M68).
Seat belt warning chime The warning chime will sound for approximately 6 seconds when ignition
switch is turned from OFF to ON and seat belt is unfastened.
Ground is supplied:
^ to warning chime unit terminal (2)
^ from seat belt buckle switch terminal (1).
Seat belt buckle switch terminal (2) is grounded through body grounds (M14) and (M68)
Page 3053
EGR Temperature Sensor: Electrical Diagrams
EC-EGR/TS-01 EGR Temperature Sensor (DTC: P1401)
Circuit Diagrams
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 6313
Page 5764
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1478
Page 6089
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Specifications
Brake Light Switch: Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 5932
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1990
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 3174
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 942
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5531
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5945
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Testing and Inspection
Wiper Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 4206
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 7396
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 6360
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4463
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3457
Absolute Pressure Sensor: Connector Views
Absolute Pressure Sensor
Circuit Connectors
Page 2823
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Specifications
Engine Oil Pressure: Specifications
WARNING: Be careful not to burn yourself, as the engine and oil may be hot.
- For M/T models, put gearshift lever in Neutral "N" position. For A/T models, put selector lever in
Park "P" position.
1. Check oil level. 2. Remove oil pressure switch. 3. Install pressure gauge. 4. Start engine and
warm it up to normal operating temperature. 5. Check oil pressure with engine running under
no-load.
- If difference is extreme, check oil passage and oil pump for oil leaks.
6. Install oil pressure switch with sealant.
Page 9306
Dome Lamp: Testing and Inspection
MODELS WITH POWER DOOR LOCKS
Trouble Diagnoses (For Models With Power Door Locks)
SYMPTOM: Room lamp does not turn on when any door is opened, or timer does not operate
properly.
Page 3637
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5554
Description (Part 1 Of 2)
Page 5341
Description (Part 1 Of 2)
Page 4862
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 4919
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3790
Idle Speed/Throttle Actuator - Electronic: Description and Operation
SYSTEM DESCRIPTION
This system automatically controls engine idle speed to a specified level. Idle speed is controlled
through fine adjustment of the amount of air which bypasses the throttle valve via IACV-AAC valve.
The IACV-AAC valve repeats ON/OFF operation according to the signal sent from the ECM. The
camshaft position sensor detects the actual engine speed and sends a signal to the ECM. The
ECM then controls the ON/OFF time of the IACV-AAC valve so that engine speed coincides with
the target value memorized in ECM. The target engine speed is the lowest speed at which the
engine can operate steadily. The optimum value stored in the ECM is determined by taking into
consideration various engine conditions, such as during warm up, deceleration, and engine load
(air conditioner and power steering).
COMPONENT DESCRIPTION IACV-AAC valve
The IACV-AAC valve is moved by ON/OFF pulses from the ECM. The longer the ON pulse, the
greater the amount of air that will flow through the valve. The more air that flows through the valve,
the higher the idle speed.
Page 2999
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6335
27. Select the correct vehicle and model year from the list (see Figure 13 example).
28. Select Select
29. Make sure the correct vehicle is displayed (see Figure 14 example).
30. Select Confirm
Page 5984
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8307
CAUTION: -
Do not attempt to disassemble spiral cable.
- Do not apply lubricant to the spiral cable.
Page 6311
Page 4374
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3520
Ground Distribution
Capacity Specifications
Fluid - Differential: Capacity Specifications
Front Differential
Specified amount .................................................................................................................................
.................................................. 2.75 pts. (1.3 Liters)
Rear Differential
Specified amount: H190A ....................................................................................................................
............................................................................. 3.125 pts. (1.5 Liters) C200 ...................................
..............................................................................................................................................................
..... 2.75 pts. (1.3 Liters)
Page 2836
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Specifications
EGR Temperature Sensor: Specifications
Resistance 7.9 - 9.7 M ohms at 32 deg F
0.57 - 0.70 M ohms at 122 deg F
0.08 - 0.10 M ohms at 212 deg F
Voltage 4.81 VDC at 32 deg F
2.81 VDC at 122 deg F
0.8 VDC at 212 deg F
Page 3231
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5659
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8447
8. As the tape rolls up to the "D" ring, center and smooth the tape around the back side of the "D"
ring. Press the bubbles and wrinkles out with your fingers (see Figure 7).
9. Peel off the remaining tape backing (see Figure 8A).
10. Carefully apply the tape around the remainder of the "D" ring. Press down the edges and make
sure there are no wrinkles (see Figure 8B).
11. Pull the seat belt back and forth against the tape-covered "D" ring to ensure that the tape is
firmly applied (see Figure 9).
12. Remove the binder clip from the seat belt.
13. Confirm the seat belt moves smoothly and quickly through the "D" ring.
Page 2329
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 3704
16. If there are no DTCs, select the "Repair" icon (see Figure 5).
^ If there are any DTCs other than those listed in the accompanying Symptom based TSB,
diagnose, perform repairs, and erase DTCs before continuing.
17. Select the "ECM Reprogram" icon. (See Figure 6.)
Page 3945
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4904
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6519
2. From the driver's side floor area, looking up behind the driver lower instrument panel, the lower
portion of the steering column should be visible. On the bottom side of the steering column just in
front of the driver lower instrument panel should be a white paper label with a four digit date code
(see Figure 1).
NOTE:
Vehicles within the campaign range that were repaired prior to this campaign (i.e. as a Port
Modification) will have an orange label over or adjacent to the white paper label. These vehicles do
not require additional repair.
3. If the A/T shifter assembly replacement is required, proceed to the Service Procedure section of
this bulletin.
PARTS INFORMATION
Parts for this voluntary safety recall must be ordered through Nissan's Customer Care Parts
Ordering Program.
CLAIMS INFORMATION
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Towing Expense:
If required, towing expenses to the nearest Nissan dealer should be submitted using expense code
501.
Page 5993
Ignition Coil: Testing and Inspection
COMPONENT INSPECTION
Ignition Coil
1. Disconnect ignition coil harness connector. 2. Remove distributor cap.
3. Check resistance as shown in the figure.
If NG, replace distributor assembly as a unit.
Locations
EGR Valve: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 6693
Pressure Plate: Specifications Torque Specifications
CLUTCH DISC INSPECTION
Check the following items, and replace as necessary. Clutch disc, for burns, discoloration and oil or grease leakage
- Clutch disc, for wear of facing
Wear limit of facing surface to rivet head: 0.3 mm (0.012 inch)
- Clutch disc, for backlash of spline and runout of facing
Maximum backlash of spline (at outer edge of disc): 1.0 mm (0.039 inch) Runout limit: 1.0 mm
(0.039 inch) Distance of runout check point (from hub center): 115 mm (4.53 inch)
INSTALLATION
- Apply recommended grease to contact surface of splines.
- Too much lubricant may damage clutch disc facing.
Page 6289
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1126
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4603
Type Of Standardized Relays (Part 2 Of 2)
Page 6043
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6813
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 5664
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9209
Brake Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1728
Fuse: Diagrams
Fuse
a. If fuse is blown, be sure to eliminate cause of problem before installing new fuse. b. Use fuse of
specified rating. Never use fuse of more than specified rating. c. Do not partially install fuse; always
insert it into fuse holder properly. d. Remove fuse for "ELECTRICAL PARTS (BAT)" if vehicle is not
used for a long period of time.
Page 8701
^ Re-programming of additional remote controllers is not covered by warranty.
^ Remote controller replacement due to customer abuse, purse/pocket damage, and/or loss is not
covered by warranty.
^ The replacement of the remote controller battery is not covered by warranty.
Service Procedure
For 1998-2000 Maxima, Pathfinder, Sentra, Altima, and Frontier Vehicles 2000 Quest and Xterra
Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when this step is accurately completed and programming
is successful. For 2000 Quest vehicles, the side marker/tail/license lamps will flash twice when
programming is successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when programming is successful. For 2000 Quest
vehicles, the side marker/tail/license lamps will flash twice when programming is successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
remote controller you have programmed.
For 1999 Quest Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
Page 361
Fog/Driving Lamp Switch: Service and Repair
Combination Switch/Replacement
^ Each switch can be replaced without removing combination switch base.
Combination Switch/Replacement
^ To remove combination switch base, remove base attaching screws.
Combination Switch/Replacement
^ Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 5409
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 9530
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5629
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1930
Oil Pump
Page 5414
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8349
8. As the tape rolls up to the "D" ring, center and smooth the tape around the back side of the "D"
ring. Press the bubbles and wrinkles out with your fingers (see Figure 7).
9. Peel off the remaining tape backing (see Figure 8A).
10. Carefully apply the tape around the remainder of the "D" ring. Press down the edges and make
sure there are no wrinkles (see Figure 8B).
11. Pull the seat belt back and forth against the tape-covered "D" ring to ensure that the tape is
firmly applied (see Figure 9).
12. Remove the binder clip from the seat belt.
13. Confirm the seat belt moves smoothly and quickly through the "D" ring.
Page 638
Description (Part 1 Of 2)
Page 6221
Spark Plug: Application and ID
Spark Plug ID
Standard ..............................................................................................................................................
.............................................................. FR5AP-10 Cold ....................................................................
..............................................................................................................................................
FR6AP-10 Optional .............................................................................................................................
............................................................................... FR7AP-10
Page 3717
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 981
Ground Distribution
Specifications
Control Arm: Specifications
TIGHTENING SPECIFICATIONS
Lower Link ...........................................................................................................................................
............................ 109 - 147 Nm (80 - 108 ft. lbs.) Upper Link ............................................................
............................................................................................................... 98 - 118 Nm (72 - 87 ft. lbs.)
Page 5163
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Front
Wheel Speed Sensor: Service and Repair Front
REPLACEMENT
Refer to the illustration when servicing, noting the following:
CAUTION: Be careful not to damage sensor edge and sensor rotor teeth. When removing the front
wheel hub or rear axle shaft assembly, disconnect the ABS wheel sensor from the assembly and
move it away.
Page 1053
Ground Distribution
Page 4539
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2877
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 3746
Type Of Standardized Relays (Part 2 Of 2)
Page 1009
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8184
Comments regarding liquid tanks:
^ For R-134a, the sight glass has been deleted. Refer to the service procedures section of this
bulletin for additional information regarding the refrigerant charge determination. Pressure switches
are not interchangeable between R-12 and R-134a systems.
Page 1178
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1554
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 5733
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3477
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4290
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5706
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9215
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4103
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5532
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6184
Optional Splice
Example Diagrams
Page 7990
Wheel Bearing: Adjustments
PRELOAD ADJUSTMENT
Adjust wheel bearing preload after wheel bearing has been replaced or front axle has been
reassembled.
Adjust wheel bearing preload as follows:
1. Before adjustment, thoroughly clean all parts to prevent dirt entry.
2. Apply multi-purpose grease sparingly to the following parts:
- Threaded portion of spindle
- Contact surface between wheel bearing washer and outer wheel bearing
- Grease seal lip
- Wheel hub 18 - 23 grams (0.63 - 0.81 ounce)
3. Tighten wheel bearing lock nut with Tool to 78 - 98 Nm (58 - 72 ft. lbs.).
4. Turn wheel hub several times in both directions.
5. Loosen wheel bearing lock nut so that torque becomes 0 Nm (0 ft. lbs.).
6. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
7. Turn wheel hub several times in both directions.
8. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
9. Measure wheel bearing axial end play.
Axial end play: 0 mm (0 inch)
Page 4537
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1023
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3185
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4675
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3799
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Specifications
Crankshaft Gear/Sprocket: Specifications
Page 5926
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6178
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 5077
Ground Distribution
Page 8735
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Emissions System - MIL ON/DTC P1491 (EVAP) Stored
Fuel Tank Cut Valve: Customer Interest Emissions System - MIL ON/DTC P1491 (EVAP) Stored
Classification: EC02-008
Reference: NTB02-033
Date: March 21, 2002
DTC 1491 (VACUUM CUT VALVE BYPASS VALVE) DIAGNOSIS
APPLIED VEHICLE(S): 1998-2002 All Models
SERVICE INFORMATION
This bulletin is an aid to the diagnostic procedures in the Service Manual for DTC P1491.
If one of the applied vehicles has the MIL "ON" with DTC P1491 (Vacuum Cut Valve Bypass Valve)
stored in Self-Diagnostic Results, use the service procedure in this bulletin and the appropriate
Service Manual to help you diagnosis the incident, if it should occur.
SERVICE PROCEDURE
1. Confirm the Vacuum Cut Valve is installed correctly (See Figure 1).
NOTE:
^ The Vacuum Cut Valve will not work correctly and a DTC will be stored if it is installed
upside-down.
^ The Vacuum Cut Valve is a white plastic valve near the fuel tank and EVAP canister.
2. Connect CONSULT-II and turn the ignition key to "N" (do not start the engine).
3. On CONSULT II, select ENGINE - DATA MONITOR - SELECTION FROM MENU - EVAP
SYSTEM PRESSURE SENSOR.
4. Note the EVAP System Pressure Sensor Voltage Confirm that it is reading in a normal range for
a key ON arid engine OFF condition.
NOTE:
For 2001 models and earlier:
^ Voltage in step 4 should be near 3.36 volts.
^ The normal range is between 3.32 - 3.40 volts.
For 2002 models:
Page 6306
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Testing and Inspection
Ignition Cable: Testing and Inspection
COMPONENT INSPECTION Ignition wires
1. Inspect wires for cracks, damage, burned terminals and for improper fit. 2. Measure the
resistance of wires to their distributor cap terminal. Move each wire while testing to check for
intermittent breaks.
Resistance: 13.6 - 18.4 K Ohms (4.15 - 5.61 K Ohms/ft) at 25°C (77°F)
If the resistance exceeds the above specification, inspect ignition wire to distributor cap connection.
Clean connection or replace the ignition wire with a new one.
Page 788
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1745
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2415
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5435
Fuel Pump Relay: Connector Locations
Main Harness (Part 1 Of 2)
Page 7187
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Page 3831
DIAGNOSTIC PROCEDURE
Page 7757
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 8149
Use the Diagnosis/Repair Flow Chart shown to determine the diagnosis and repair of the vehicle.
Low Hose Visual and Leak Detector Inspection
Low Hose Visual Inspection
Page 7717
Page 4023
Page 3587
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 411
Description (Part 1 Of 2)
Page 779
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3508
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5860
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7253
Wheel Cylinder: Testing and Inspection
- Check wheel cylinder for leakage.
- Check for wear, damage and loose conditions. Replace if any such conditions exists.
Page 522
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4679
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Diagram Information and Instructions
Engine Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Specifications
Intake Manifold: Specifications
Page 557
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4037
In the Administrator window select My Computer.
In the My Computer screen select Local Disc (C).
In the Local Disc (C) screen select Consult III folder.
In the Consult III screen/folder select ApplicationData folder.
In the ApplicationData screen/folder select PrintImages folder.
When the file was saved it was automatically given a file name using the current date and time.
Select and print the file/screen image that you want.
NOTE:
During reprogramming DTCs will set in several systems. DTCs must be erased from all systems.
Erase DTCs from all systems
22. Click on the "Home" icon (top left corner of the C-III screen).
23. Wait for the "Detecting VI/MI in progress" message to clear.
24. Select the detected VI from the list. (See Figure 12.)
25. Select Connect.
26. Wait for the "Checking the firmware version" message to clear.
Page 483
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 439
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 4083
Seat Belt Retractor On-Vehicle Check
Seat Belt Retractor: Testing and Inspection Seat Belt Retractor On-Vehicle Check
Emergency Locking Retractors (ELR) and Automatic Locking Retractors (ALR)
NOTE: All seat belt retractors are of the Emergency Locking (ELR) type. In an emergency (sudden
stop) the retractor will lock and prevent the belt from extending any further. All outboard 3-point
type seat belt retractors except the driver's seat belt also have an Automatic Locking (ALR) mode.
The ALR mode (also called child restraint mode) is used when installing child seats in outboard
seating positions. The ALR mode is activated when the seat belt is fully extended. When the belt is
then retracted partially, the ALR mode automatically locks the seat belt in a specific position so the
belt cannot be extended any further. To cancel the ALR mode, allow the seat belt to fully wind back
into the retractor.
Check the seat belt retractors using the following test(s) to determine if a retractor assembly is
operating properly.
ELR Function Stationary Check
Grasp the shoulder belt and pull forward quickly. The retractor should lock and prevent the belt
from extending further.
ALR Function Stationary Check
1. Pull out entire length of seat belt from retractor until a click is heard. 2. Retract the belt partially;
a clicking noise should be heard as the belt retracts indicating retractor is in the automatic locking
(ALR) mode. 3. Grasp the seat belt and try to pull out of retractor. Belt must lock and not extend
further. If NG, replace the retractor assembly.
4. Allow the entire length of belt to retract to cancel the ALR mode.
ELR Function Moving Check (all Outboard Seating Positions)
WARNING: Perform the following test in a safe, open area clear of other vehicles and obstructions
(for example, a large, empty parking lot). Road surface must be paved and dry. DO NOT perform
the following test on wet or gravel roads or on public streets and highways. This could result in an
accident and serious personal injury. The driver and passenger must be prepared to brace
themselves in the event the retractor does not lock.
1. Fasten driver's seat belt. Buckle a passenger into the seat for the belt that is to be tested. 2.
Proceed to the designated safe area. 3. Drive the vehicle at approximately 16 km/h (10 mph).
Notify any passengers of a pending sudden stop. The driver and passenger must be
prepared to brace themselves in the event the retractor does not lock. Apply brakes firmly and
make a very hard stop.
During stop, seat belts should lock and not extend. If the seat belt retractor assembly does not lock,
perform the retractor off-vehicle check.
Page 2716
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6113
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2375
18. At this point, refer to the symptom based TSB that directed you to reprogram the ECM.
The symptom based TSB is required, in order to determine which reprogramming part number to
use.
19. Select Next
NOTE:
If the screen in Figure 8 appears, there is data stored in the VI. Select "Yes" to proceed with
Reprogramming.
Page 9507
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1096
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9549
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2671
Description (Part 1 Of 2)
Page 4293
Ground Distribution
Page 6524
23. Install the driver's side lower knee protector bar using the (2) grade 4 bolts (identified by the 4
on the head) (refer to Figure 3). Bolt torque specification: 29 to 38 in/lb (0.33 to 0.41 kg/m).
24. Carefully install the driver's side lower panel by lifting it into place and snapping the panel
underneath the instrument cluster. Install (1) screw located above the hood lock release lever and
(1) screw located under the parking brake lever (refer to Figure 2).
25. Identify the airbag harness by its yellow connector end for the spiral cable and ensure it doesn't
interfere with the steering column cover installation. Damage to this harness may result in
unintended airbag deployment.
26. Place a clean shop towel over the lower knee protector to protect the steering column cover
during installation.
27. Carefully install the steering column upper and lower covers and install the (5) screws from the
underside and installing the garnish around the key switch. Be careful not to over tighten these
screws or pinch any wires.
28. Remove the shop towel from the knee protector.
29. Reconnect the negative battery cable.
30. Turn ignition on.
31. Operate the O/D switch at the end of the shift lever and confirm that the O/D indicator light
turns on and off with the switch.
32. Depress brake pedal and move shift lever through all gear positions. Confirm that the
transmission engages each position and that the shift indicator displays the correct gear position.
33. Return the shift lever to the park position.
34. Release the brake pedal and confirm that the gear shift lever will not move from the park
position.
35. Confirm that the ignition key can only be removed from the ignition switch when the ignition key
is in the "Lock" position and the transmission shift lever is in the "Park" position.
36. Start the engine and confirm that no dash warning lights are on.
37. Reset the radio presets.
Page 1132
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5857
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7156
Technical Service Bulletin # 92-062A Date: 990617
Brakes - AMMCO On Car Lathe Operating Guidlines
REFERENCE: NTB92-062A
CLASSIFICATION: BR92-004A
DATE: June 17,1999
TITLE: AMMCO ON-CAR BRAKE LATHE OPERATING GUIDELINES
APPLIED VEHICLE(S): All models
This amended version of NTB92-062 adds a CAUTION and a NOTE to the Service Procedure.
Please discard all paper copies of NTB92-062.
SERVICE INFORMATION
To ensure the best possible surface finish and least amount of run-out and rotor thickness variation
when using the Ammco on-car brake lathe, the following guidelines should be observed.
Service Procedure
SERVICE PROCEDURE Before mounting the brake lathe on the vehicle ensure the following:
1. The V-way between the carriage and carriage gib must be clean and adjusted properly (see
Operation Manual for adjustment procedure). Wipe off
sliding surfaces with a soft cloth after each use.
2. The cutters and cutting bits must be tight in their mounts and positioned properly. Change cutting
bits when they become dull.
3. When securing the adjustable mounting brackets to the caliper mount/knuckle the mounting
surfaces must be smooth and free of burrs.
4. Make sure the adjustable mounting brackets are securely mounted to caliper mount/knuckle.
There should be no movement between the cutting
tool and the caliper mount/knuckle.
ROTOR DRIVING UNIT Before using the drive unit ensure the following:
Page 5579
Type Of Standardized Relays (Part 2 Of 2)
Page 3883
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4657
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7684
Standard length "L" (4WD): 297.6 mm (11.72 inch)
CAUTION: Make sure that tie rod bars are screwed into tie rod tube more than 29 mm (1.14 inch)
(2WD), 22 mm (0.87 inch) (4WD).
INSPECTION
Ball Joint And Swivel Joint
1. Check joints for play. If ball or swivel stud is worn and play in axial direction is excessive or joint
is hard to swing, replace as a complete unit.
Swinging force (Measure point: Cotter pin hole) "A":
Ball joint: 15.7 - 147.1 N (3.5 - 33.1 lbs.) Rotating torque "B":
Ball joint: 0.5 - 4.9 Nm (4.3 - 43.4 inch lbs.)
Swivel joint: 1.0 - 5.9 Nm (8.7 - 52.1 inch lbs.)
Axial end play "C":
Ball joint: 0 mm (0 inch) Swivel joint: 0 mm (0 inch)
2. Check condition of dust cover. If it is cracked excessively replace dust cover. When replacing
dust cover, be careful not to damage it.
3. Lubricate joint with multi-purpose grease, if necessary.
4. When installing boot band with commercial service tool, be careful not to overexpand it.
CAUTION: Be careful not to apply grease or oil to taper of joint.
Idler Arm Assembly
- Check rubber bushing of idler arm for breakage, wear or play, and if necessary replace.
- Lubricate idler arm assembly with multi-purpose grease, if necessary.
Relay Rod And Tie-Rod
- Check tie rod and relay rod for breakage, bends or cracks, and replace with a new one if
necessary.
Steering Damper
- Check for oil leaking from damper, and replace if necessary.
Fixing Location
- Check fixing location (nuts and cotter pins) for looseness, play or breakage.
- When looseness or play is found, check for wear on tapered portion of joints, gear arm of idler
arm.
- When reassembling each joint, use new cotter pins.
Diagram Information and Instructions
Fuel Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 528
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 749
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9283
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6277
Description (Part 1 Of 2)
Page 7919
Page 2731
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6423
Torque Converter Clutch Solenoid: Description and Operation
SYSTEM DESCRIPTION
The ECM controls torque converter clutch solenoid valve to cancel the lock-up condition of A/T.
When the solenoid valve is turned on, lock-up is cancelled. When the solenoid valve is turned oft,
A/T lock-up is operational.
Conditions for lock-up cancel: Torque converter clutch solenoid valve is turned "ON" when; Throttle valve is fully closed (during idling or deceleration)
- Engine coolant temperature is below 40° C (104° F)
- Engine is stopped
Conditions for lock-up operation: Under 55 to 63 km/h (34 to 39 MPH) (2/8 throttle on flat road), lock-up does not operate even when
the torque converter clutch solenoid valve is "OFF".
- Over 58 to 66 km/h (36 to 41 MPH) (2/8 throttle on flat road), lock-up should operate because the
torque converter clutch solenoid valve is "OFF". To confirm vehicle lock-up, the torque converter
clutch solenoid valve must be in operation ("ON" during idle and deceleration, and "OFF" during
acceleration) and engine speed should drop. When the accelerator pedal is depressed (less than
2/8) in lock-up, the engine speed should not change abruptly. If there is a big jump in engine
speed, there will be no lock-up.
CONSULT REFERENCE VALUE IN DATA MONITOR MODE
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
ON BOARD DIAGNOSIS LOGIC
DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE
CAUTION: Always drive vehicle at a safe speed.
Page 4060
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4902
Optional Splice
Example Diagrams
Page 8416
The top section of the tape (from which the backing sheet was peeled off in step 5) should be
placed so that it is pointing down toward the floor of the vehicle. The "unexposed" bottom section of
the tape should be pointing up toward the ceiling of the vehicle (see Figure 9A).
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 9B).
^ The unexposed bottom section of the tape will be pulled through and hang over the top of the "D"
ring (see Figure 9B). Stop pulling when you see this.
8. As the top section of the adhesive-exposed tape rolls up to the "D" ring, center and smooth the
tape around the back side of the "D" ring (see Figure 9B above and Figure 10).
NOTE:
Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned. Take care to
properly attach the tape to the "D" ring. Center the tape correctly on the "D" ring and smoothly
apply it to the "D" ring surface in these procedural steps so that no wrinkles or ridges are present.
IMPORTANT:
Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D" ring.
Replace the tape with a new piece if this should occur.
9. Run your finger over the surface of the newly applied tape to firmly apply it to the back side of
the "D" ring. Press down the edges of the tape, and smooth out any air bubbles or wrinkles (see
Figure 10).
10. Peel off the remaining, unexposed bottom section of the tape backing (see Figure 11A).
11. Carefully apply the tape around the remainder of the "D" ring. Take care to apply the tape so
that no wrinkles are present. Press down the edges of the tape (see Figure 11B).
Page 3853
Ground Distribution
Service and Repair
Front Door Exterior Handle: Service and Repair
Front Door
For removal of door trim refer to Door Trim in INTERIOR TRIM for details.
After adjusting door or door lock check door lock operation.
Page 7925
WHEEL HUB AND ROTOR DISC
REPLACEMENT
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub / Service and Repair.
Page 1076
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2687
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3675
Data Link Connector: Connector Views
MIL & Data Link Connectors
MIL and Data Link Connectors Circuit Connectors
Service and Repair
Seals and Gaskets: Service and Repair
VALVE OIL SEAL
1. Remove rocker cover. 2. Remove camshaft. 3. Remove valve spring and valve oil seal with Tool
or a suitable tool.
Piston concerned should be set at TDC to prevent valve from falling.
4. Apply engine oil to new valve oil seal and install it with Tool.
OIL SEAL INSTALLING DIRECTION
Install new oil seal in the direction shown.
FRONT OIL SEAL
1. Remove radiator shroud and crankshaft pulley 2. Remove front oil seal
- Be careful not to scratch front cover.
Page 4173
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4057
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1040
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Locations
Fuse Block: Locations
Component Parts And Harness Connector Location
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Page 5045
Leak Detection Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4789
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6302
Type Of Standardized Relays (Part 2 Of 2)
Page 3497
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 6351
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2868
Type Of Standardized Relays (Part 2 Of 2)
Upper Ball Joint
Ball Joint: Specifications Upper Ball Joint
DIMENSIONS
Vertical End Play .................................................................................................................................
........................................................ 0 mm (0 inch)
TIGHTENING SPECIFICATIONS
Castle Nut ............................................................................................................................................
............................... 78 - 147 Nm (58 - 108 ft. lbs.)
Capacity Specifications
Engine Oil: Capacity Specifications
Specified amount:
With oil filter .........................................................................................................................................
.............................................. 4.125 qts. (3.9 Liters)
Without oil filter ....................................................................................................................................
.............................................. 3.875 qts. (3.7 Liters)
Page 388
Ground Distribution
Page 4634
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 63
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 2474
Ignition Control Module: Electrical Diagrams
WIRING DIAGRAM
Page 5358
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5649
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 7619
CAMBER, CASTER AND KINGPIN INCLINATION
Before checking camber, caster or kingpin inclination, move vehicle up and down on turning radius
gauge to minimize friction. Ensure that the vehicle is in correct posture.
- Measure camber, caster and kingpin inclination of both right and left wheels with a suitable
alignment gauge and adjust in accordance with the following procedures.
Camber, Caster, and Kingpin inclination: Refer to Specification Table.
- In the following two cases, temporarily tighten the adjusting bolts while aligning the matching
marks with the slits as shown in the figure and measure the camber, caster and kingpin inclination:
(1) When replacing the upper link or other suspension parts with new ones (2) When matching
marks were not painted on adjusting bolts before suspension disassembly procedures.
- If matching marks were already painted during suspension disassembly, align the matching marks
with the slits, then temporarily tighten the adjusting bolts. Measure the camber, caster and kingpin
inclination.
ADJUSTMENT
Page 3051
Type Of Standardized Relays (Part 2 Of 2)
Page 3310
Type Of Standardized Relays (Part 2 Of 2)
Page 5718
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 2014
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Page 7814
CAUTION: Make matching marks and measure dimension "L" when loosening adjusting nut until
there is no tension on torsion bar spring.
2. Remove shock absorber lower fixing bolt.
3. Remove stabilizer car connecting bolt.
4. Separate lower link ball joint from knuckle spindle.
5. Remove front lower link fixing nut.
6. Remove bushing of lower link spindle from frame with Tool.
7. After installing lower link, adjust wheel alignment and vehicle height.
INSPECTION
Lower Link And Lower Link Spindle
- Check for deformation and cracks. Replace if necessary.
Lower Link Bushing
- Check for distortion and damage. Replace if necessary.
Page 1962
7. Determine replacement adjusting shim size as follows.
a. Using a micrometer determine thickness of removed shim. b. Calculate thickness of new
adjusting shim so valve clearance comes within specified values.
R = Thickness of removed shim N = Thickness of new shim M = Measured valve clearance
Intake & Exhaust: N = R + [M - 0.37 mm (0.0146 inch)]
Shims are available in thicknesses from 1.96 mm (0.0772 inch) to 2.68 mm (0.1055 in), in steps of
0.02 mm (0.0008 inch).
c. Select new shim with thickness as close as possible to calculated value.
8. Install new shim using a suitable tool.
- Install with the surface on which the thickness is stamped facing down.
9. Place Tool (A) as mentioned in steps 2 and 3.
10. Remove Tool (B). 11. Remove Tool (A). 12. Recheck valve clearance.
Page 1390
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 1573
Use a backup wrench on the low hose when tightening the joint connection nut.
8. Reinstall the clip to the support bracket (see Figure 2). Tighten the clip mounting bolt to 3.8 - 4.5
N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb).
9. Evacuate and recharge the vehicle's A/C system with 0.60 - 0.70 kg (1.32-1.54 lb) of R134a
refrigerant. Refer to page HA-51 of the 1998 Frontier Service Manual for the A/C evacuation and
recharge procedure.
10. Check the A/C low hose for refrigerant leaks. Refer to pages HA-48 through HA-50 of the 1998
Frontier Service Manual for the A/C leak test procedure. If a leak is found, repair as necessary
before proceeding with step 11.
11. Check A/C performance. Refer to page HA-38 of the 1998 Frontier Service Manual for the A/C
performance check procedure.
A. If the A/C performance is within specification, this service procedure is complete.
B. If the A/C performance is not within specification, repair as necessary.
Low Hose Angle Adjustment
1. Loosen the joint connection between the A/C low hose and the mating A/C low pipe by turning
the joint connection nut 1/4 turn counterclockwise (see Figure 4).
CAUTION:
Do not loosen the joint connection nut more than 1/4 turn as refrigerant can escape and the 0-ring
may become damaged. Also, use a backup wrench on the hose when loosening the joint
connection nut.
2. Loosen (but do not remove) the bolt that secures the clip to the support bracket (see Figure 4).
3. Move the A/C low hose so that it is positioned between 0° and 5° relative to the horizontal plane
(see Figure 5).
4. Retighten the clip mounting bolt to 3.8 - 4.5 N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb)
Page 2403
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 8068
Passenger Compartment (Part 2 Of 2)
PASSENGER COMPARTMENT
Page 4104
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Master Cylinder
Brake Master Cylinder: Specifications Master Cylinder
DIMENSIONS
Bore Diameter .....................................................................................................................................
......................................... 23.81 mm (0.94 inches)
TIGHTENING SPECIFICATIONS
Mounting Nuts .....................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.) Flare Nuts ............................................................
................................................................................................................... 15 - 18 Nm (11 - 13 ft.
lbs.) Valve Stopper
.............................................................................................................................................................
2.0 - 3.4 Nm (17.4 - 30.4 inch lbs.)
Page 1879
Camshaft Bearing: Specifications Torque Specifications
LOWER TIMING CHAIN
1. Install crankshaft sprocket, oil pump drive gear and oil thrower.
- Make sure that mating marks of crankshaft sprocket face front of engine.
2. Position crankshaft so that No. 1 piston is set at TDC.
3. Install idler sprocket and lower timing chain.
- Set lower timing chain on the sprockets, aligning mating marks. Be careful not to damage cylinder
head gasket when installing lower timing chain.
4. Install chain tension arm and chain guide. 5. Install lower timing chain tensioner.
- When installing, insert a suitable pin into pin hole to stop piston. After installation remove the pin
to release piston.
6. Install front cover.
- Use a scraper to remove all traces of liquid gasket from mating surface
- Also remove traces of liquid gasket from mating surface of cylinder block.
- Apply a continuous bead of liquid gasket to front cover.
- Use Genuine RTV Silicone Sealant, Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Page 3330
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 8382
3. Slide the seat belt latch plate to a position higher than the button position (i.e., between the
button location and the shoulder anchor loop). See Figure 2.
4. Find the original button position (hole). Then insert the button half (with the center pin) into the
belt. Go in from the plastic side of the latch plate (see Figure 2).
5. On the opposite side of the belt (on the metal side of the latch plate) fit the button half with the
hole over the protruding pin (see Figure 2 & 3).
6. Use an adjustable wrench with smooth jaws. Place it as shown in Figure 4, then finger tighten
the jaws.
Page 4360
Optional Splice
Example Diagrams
Front Differential
Pinion Gear: Specifications Front Differential
DRIVE PINION HEIGHT ADJUSTMENT
DRIVE PINION PRELOAD ADJUSTMENT
Page 9433
License Plate Lamp: Connector Views
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4354
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 4342
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 4270
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Specifications
Center Link: Specifications
DIMENSIONS
Ball Joint Swinging Force [1]
............................................................................................................................................ 15.7 147.1 N (3.5 - 33.1 lbs.)
TIGHTENING SPECIFICATIONS
Castle Nuts (At Inner Tie Rod)
.............................................................................................................................................. 54 - 98
Nm (40 - 72 ft. lbs.)
[1]: Measure point at the cotter pin hole.
Page 417
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3844
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2335
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 4624
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1890
Camshaft: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 3291
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8934
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Locations
Cruise Control Module: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 100
Page 2673
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1553
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Page 6943
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4002
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
A/C - Idler Pulley Whine Noise at 3000 rpm
Idler Pulley: All Technical Service Bulletins A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 3099
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Interior - Seat Belt Latch Plate Button Missing
Technical Service Bulletin # 99-022C Date: 030805
Interior - Seat Belt Latch Plate Button Missing
Classification: RS99-001C
Reference; NTB99-022C
Date: August 5, 2003
FRONT SEAT BELT LATCH PLATE RETAINING BUTTON MISSING
The Applied Vehicles and Service Information sections of this bulletin have been revised. Please
discard all previous copies of NTB99-022.
APPLIED VEHICLES
IF YOU CONFIRM:
^ The front seat belt latch plate of an applied vehicle slides to the end of the seat belt, sliding down
the belt to the floor at the base of the B pillar.
^ This happens because the seat belt latch plate retaining button is lost or damaged.
^ The seat belt and retractor are in serviceable condition,
ACTION:
Use this bulletin to replace the retaining button and clean, and refurbish the driver's and
passenger's front seat belt "D" rings.
NOTE:
This button is required to hold the seat belt latch plate at the shoulder location, preventing it from
sliding to the floor when the belt is released.
NOTE:
The purpose of "ACTION" is to give you a quick idea of the work you will be performing. You must
closely follow the entire Service Procedure as it contains information that is essential to
successfully completing this repair.
Page 2547
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Emissions System - MIL ON/DTC P1491 (EVAP) Stored
Fuel Tank Cut Valve: All Technical Service Bulletins Emissions System - MIL ON/DTC P1491
(EVAP) Stored
Classification: EC02-008
Reference: NTB02-033
Date: March 21, 2002
DTC 1491 (VACUUM CUT VALVE BYPASS VALVE) DIAGNOSIS
APPLIED VEHICLE(S): 1998-2002 All Models
SERVICE INFORMATION
This bulletin is an aid to the diagnostic procedures in the Service Manual for DTC P1491.
If one of the applied vehicles has the MIL "ON" with DTC P1491 (Vacuum Cut Valve Bypass Valve)
stored in Self-Diagnostic Results, use the service procedure in this bulletin and the appropriate
Service Manual to help you diagnosis the incident, if it should occur.
SERVICE PROCEDURE
1. Confirm the Vacuum Cut Valve is installed correctly (See Figure 1).
NOTE:
^ The Vacuum Cut Valve will not work correctly and a DTC will be stored if it is installed
upside-down.
^ The Vacuum Cut Valve is a white plastic valve near the fuel tank and EVAP canister.
2. Connect CONSULT-II and turn the ignition key to "N" (do not start the engine).
3. On CONSULT II, select ENGINE - DATA MONITOR - SELECTION FROM MENU - EVAP
SYSTEM PRESSURE SENSOR.
4. Note the EVAP System Pressure Sensor Voltage Confirm that it is reading in a normal range for
a key ON arid engine OFF condition.
NOTE:
For 2001 models and earlier:
^ Voltage in step 4 should be near 3.36 volts.
^ The normal range is between 3.32 - 3.40 volts.
For 2002 models:
Page 9184
Backup Lamp: Connector Views
Back-up Lamp
Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Capacity Specifications
Differential Fluid - M/T: Capacity Specifications
Differential Carrier Gear Oil
Rear: H190A ........................................................................................................................................
.............................................. 1.5 liters (3-1/8 pt)
C200 ....................................................................................................................................................
................................... 1.3 liters (2-3/4 pt)
Front (4WD):R180A .............................................................................................................................
............................................. 1.3 liters (2-3/4 pt)
Page 7321
Battery: Technical Service Bulletins Battery - Charging/Replacement Procedure
CLASSIFICATION: EL94-001
REFERENCE: NTB94-009
DATE: MARCH 4, 1994
BATTERY CHARGING/REPLACEMENT PROCEDURE APPLIED VEHICLE(S) All
SERVICE INFORMATION As the demands on the vehicle battery increase with the complexity of
electrical systems, there is a need for a usable, consistent and repeatable procedure for
determining the need for charging or replacement of vehicle batteries.
It is the Dealer's responsibility to determine the condition/chargeability of a battery, prior to
replacement of the battery. SERVICE PROCEDURE See the following illustrations for BATTERY
CHARGING/REPLACEMENT PROCEDURE. Battery Charging/Replacement Procedure
Page 7372
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6398
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6590
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 640
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9279
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 106
Attachment General Procedure
Page 5001
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Page 7374
Type Of Standardized Relays (Part 2 Of 2)
Page 2242
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Testing and Inspection
Air Conditioning Switch: Testing and Inspection
Check continuity between terminals at each switch position.
Replacement
Brake Master Cylinder: Service and Repair Replacement
COMPONENTS
REMOVAL
CAUTION: ^
Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on painted areas, wash it away with water immediately.
^ In the case of brake fluid leakage from the master cylinder, disassemble the cylinder. Then check
piston cups for deformation or scratches and replace necessary parts.
1. Connect a vinyl tube to air bleeder valve 2. Drain brake fluid from each air bleeder valve,
depressing brake pedal to empty fluid from master cylinder. 3. Remove brake pipe flare nuts. 4.
Remove master cylinder mounting nuts.
INSTALLATION
CAUTION: ^
Refill with new brake fluid DOT 3.
^ Never reuse drained brake fluid.
Page 817
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7652
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5253
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1441
2. Check outside and inside wheel runout. Refer to illustrations.
3. Check front wheel bearings for looseness.
4. Check front suspension for looseness.
5. Check steering linkage for looseness.
6. Check that front shock absorbers work properly by using the standard bounce test.
7. Measure vehicle height (Unladen): H = A - B mm (inch)
Refer to Specification Table.
a. Exercise the front suspension by bouncing the front of the vehicle 4 or 5 times to ensure that the
vehicle is in a neutral height attitude. b. Measure wheel alignment.
Refer to Specification Table.
c. If wheel alignment is not as specified, adjust vehicle posture.
Refer to Specification Table.
d. Adjust wheel alignment.
Refer to Specification Table.
Page 7319
2) Look into each individual cell and verify that the electrolyte covers the lead plates in the battery
and is no higher than the bottom of the
vent well (see Figure 1).
3) If necessary, add only distilled water to all cells with low electrolyte levels, bringing the
electrolyte levels up to the bottom of the vent
well.
4) Re-install the cell plugs.
5) Check that the terminal connections are tight. Clean and tighten the connections as needed.
NOTES:
^ For optimum performance and battery life, fill all cells to the appropriate level.
^ If you remove the battery cables to clean the terminals, record the radio pre-sets before
removing. Re-set the radio pre-sets and the clock after cables are reinstalled.
CAUTIONS:
^ Always use distilled water when adjusting battery fluid levels. DO NOT use tap water or
electrolyte (acid).
^ DO NOT overfill the battery cells.
B. Batteries With White Cases:
1) Shine a light at the front of the battery case and determine the electrolyte level mark on the face
of the battery case (see Figure 2).
2) Verify that the electrolyte level is up to the "Upper Level" mark (see Figure 2).
3) If the electrolyte level is below the "Upper Level" mark, remove the cell plugs.
4) Add distilled water to the cells to bring the electrolyte up to the "Upper Level" mark.
Page 9259
EL-ROOM/L-02 Interior Room Lamp (Part 2 Of 3)
Circuit Diagrams
Interior Room Lamp (Part 1 Of 3)
Interior Room Lamp (Part 2 Of 3)
Interior Room Lamp Circuit Connectors
Page 6006
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3822
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Engine - Drive Belt Noise Diagnosis
Drive Belt: All Technical Service Bulletins Engine - Drive Belt Noise Diagnosis
Classification: EM09-013
Reference: NTB10-002
Date: January 12, 2010
DRIVE BELT SYSTEM NOISE DIAGNOSIS
APPLIED VEHICLES All Nissan
IF YOU CONFIRM
There is noise coming from the drive belt(s), or drive belt pulley(s),
ACTION
Use the flow chart in this bulletin to help diagnose and identify the source / cause of the noise.
CLAIMS INFORMATION
Refer to the current Nissan Warranty Flat Rate Manual and use the indicated claims coding for any
repairs performed.
Audio - Front Door Speaker Buzz Noise
Speaker: All Technical Service Bulletins Audio - Front Door Speaker Buzz Noise
Classification: EL98-002
Reference: NTB98-031
Date: April 15, 1998
1998 FRONTIER DOOR SPEAKER "BUZZ" NOISE REPAIR
APPLIED VEHICLE: All 1998 Frontier (with factory installed audio system)
SERVICE INFORMATION
If a 1998 Frontier exhibits a "buzz" noise at the door speakers when the radio volume is increased,
use the following service procedure to minimize or eliminate the "buzz" noise.
Note:
Apply the service procedure listed below to both doors.
SERVICE PROCEDURE
1. Remove the front door finisher.
2. Remove the speaker assembly from the door (see Figure 1).
Page 9030
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 3875
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3781
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Locations
Ignition Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 3917
Oxygen Sensor: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 614
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7499
Multiple Junction Connector: Service and Repair
SUPER MULTIPLE JUNCTION (SMJ)
Super Multiple Junction (SMJ)-Installation
Super Multiple Junction (SMJ)-Installation
To install SMJ, tighten bolts until orange "fulltight" mark appears and then retighten to specified
torque as required.
3 - 5 N.m (0.3 - 0.5 kg-m, 26 - 43 in lb)
CAUTION: Do not overtighten bolts, otherwise, they may be damaged.
Page 6234
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9489
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 3186
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8983
Ground Distribution
Page 5872
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7015
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8190
which will result in contamination, and damage to recovery/recycle equipment.
^ Use equipment designed to meet Society of Automotive engineers (SAE) standards, which
specify R-134a service equipment fitting size (1/2" - 16 ACME), and service hose identification
(black stripe on hose).
^ Adapters to convert from one size fitting to the other must never be used; refrigerant/lubricant
contamination will occur and system failure may result.
^ The use of incorrect equipment will result in refrigerant and/or lubricant contamination, which may
cause A/C system or equipment failure.
^ ACR(4) machine will perform all required service functions (recovery, evacuation, recycle,
recharge).
^ High volume A/C service facilities may benefit from "component" A/C service equipment (vacuum
pump, weight scale, manifold gauge set) to supplement the ACR(4).
Comments regarding recovery/recycling equipment:
^ Be certain to follow the manufacturer's instructions for machine operation and machine
maintenance.
^ Never introduce any refrigerant other than that specified into the machine.
^ Only R-134a containers with a 1/2"-16 ACME can be used to add R-134a to the ACR4
recovery/recycle machine.
^ Periodic maintenance of this equipment is required; follow the manufacturer's recommendations
as described in the equipment instruction manual.
Page 2707
Description (Part 1 Of 2)
Page 1817
Axle Nut: Specifications Front Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Page 5575
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6737
Pinion Gear: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Differential; Service and Repair.
Page 3895
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5809
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 867
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1030
Fuel Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The tank fuel temperature sensor is used to detect the fuel temperature inside the fuel tank. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the fuel
temperature input. The sensor uses a thermistor which is sensitive to the change in temperature.
The electrical resistance of the thermistor decreases as temperature increases.
Locations
Blower Motor Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 695
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5074
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Specifications
Brake Switch (Cruise Control): Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 3452
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5797
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Capacity Specifications
Refrigerant Oil: Capacity Specifications CAPACITY
CAPACITY
TOTAL SYSTEM CAPACITY LITERS TOTAL SYSTEM CAPACITY OUNCES (US)
0.20 6.8
Page 5927
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5205
EGR Temperature Sensor: Electrical Diagrams
EC-EGR/TS-01 EGR Temperature Sensor (DTC: P1401)
Circuit Diagrams
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Specifications
Page 4318
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2601
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5090
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7730
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6393
Optional Splice
Example Diagrams
Testing and Inspection
Turn Signal Flasher: Testing and Inspection
Combination Flasher Unit Check
Combination Flasher Unit Check
^ Before checking, ensure that bulbs meet specifications.
^ Connect a battery and test lamp to the combination flasher unit, as shown. Combination flasher
unit is properly functioning if it blinks when power
is supplied to the circuit.
Page 5329
Page 9217
Type Of Standardized Relays (Part 2 Of 2)
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: Customer Interest MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 661
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Clutch Disc: Specifications
GENERAL SPECIFICATIONS
INSPECTION AND ADJUSTMENT
Specifications
Brake Bleeding: Specifications
Air Bleeder Screw 5 - 7 ft.lb
Page 594
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3319
Optional Splice
Example Diagrams
Page 5000
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 4913
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 705
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4003
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8925
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3986
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1297
Description (Part 1 Of 2)
Page 5412
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7297
Wheel Speed Sensor: Description and Operation
The sensor unit consists of a gear-shaped sensor rotor and a sensor element. The element
contains a bar magnet around which a coil is wound. The sensor is installed on the back of the
brake rotor and the back of the rear brake drum. As the wheel rotates, the sensor generates a
sine-wave pattern. The frequency and voltage increase(s) as the rotating speed increases.
Specifications
Parking Brake Cable: Specifications
TIGHTENING SPECIFICATIONS
Front Cable:
Mounting Bolts
.................................................................................................................................................. 10.8 14.6 Nm (96 - 129.6 inch lbs.)
Front/Rear Cable Holder
............................................................................................................................................ 4.3 - 5.8
Nm (38.2 - 51.2 inch lbs.) Rear Cable:
Mounting Bolts
................................................................................................................................................... 10.8 14.6 Nm (8.0 - 10.8 inch lbs.)
Page 5367
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 4363
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2613
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1277
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Thermal Control Amp. Inspection
Control Module HVAC: Testing and Inspection Thermal Control Amp. Inspection
1. Run engine, and operate A/C system. 2. Connect the voltmeter from harness side. 3. Check
thermo control amp. operation shown in the table.
Page 8717
Page 2589
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 5755
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 7674
REMOVAL
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub.
Page 3800
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8371
PARTS INFORMATION
CLAIMS INFORMATION
SERVICE PROCEDURE
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 2).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 2).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
Page 3118
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 135
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3766
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9552
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 8727
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4635
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7073
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2013
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 4124
Absolute Pressure Sensor: Electrical Diagrams
EC-AP/SEN-01 Absolute Pressure Sensor
Circuit Diagrams
Absolute Pressure Sensor
Circuit Connectors
Page 7918
Wheel Hub (Locking): Specifications
Page 4742
Ground Distribution
Page 460
Ground Distribution
Page 757
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 2827
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7567
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 4184
Ground Distribution
Page 3827
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Idle Air Control Valve (IACV)-Auxiliary Air Control (AAC) Valve
Service and Repair
Clutch Release Bearing: Service and Repair
REMOVAL AND INSTALLATION
- Remove release bearing.
- Install release bearing with suitable drift.
- Install retainer spring and holder spring.
INSPECTION
Check the following items, and replace as necessary. Release bearing, to see that it rolls freely and is free from noise, cracks, pitting and wear
- Release sleeve and withdrawal lever rubbing surface, for wear, rust and damage
LUBRICATION
Page 3551
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7324
Battery: Specifications
Information not supplied by manufacturer
Page 1761
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Page 7061
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8929
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2778
Type Of Standardized Relays (Part 2 Of 2)
Page 8823
following:
1. Water spots on light colored vehicles and some vehicles which have had minimal exposure to
the elements can be repaired by buffing. First, apply a fine cutting compound using an orbital buffer
to remove a thin layer of the top coat or clear coat. After removal of the spots, buff with glazing
compound to remove the fine scratches.
2. More severe spotting can be removed with a coarser cutting compound followed by finer
compound and glazing compound to remove the scratches.
3. The most severe water spots on clear coated, dark vehicles can be repaired by wet sanding the
affected areas with 1200 grit sandpaper to prepare the surface then spraying a fresh clear coat on
those areas. Non-clear coated vehicles should be repairable with either step 1 or 2.
* Available through Dyment Distribution Services.
Page 6372
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2768
Ground Distribution
Page 4256
Ground Distribution
Page 8813
Paint: By Symptom
Technical Service Bulletin # 87-145 Date: 870928
Paint - Spotting Prevention & Repair
Classification: BF87-030
Reference: TS87-145
Date: September 28, 1987
PAINT SPOTTING REPAIR PROCEDURE
APPLIED VEHICLE(S): All Models
SERVICE INFORMATION
Paint spotting incidents occurring in the U.S. market are not unique to Nissan, but are being
experienced by all manufacturers. To date, two separate types of paint spotting incidents have
been identified as follows:
1. Particulate Fallout - Tiny solid particles which collect on horizontal panels, causing a dark stain
which will penetrate into the paint if not cleaned.
2. Water Spotting - A ringlet or multiple water-drop-shaped light discoloration on dark painted
horizontal panels.
THESE TYPES OF SPOTTING ARE NOT DUE TO PAINT DEFICIENCY, AND CAN BE
PREVENTED THROUGH PROPER CARE.
SERVICE PROCEDURE
Particulate Fallout
Ash, dust, soot and other tiny solid particulate matter from industrial and other sources can be
carried many miles. Particulate fallout is most noticeable on the horizontal surfaces (hood, luggage
compartment lid, and roof) of the vehicle.
If left on a moist, painted surface, the particles will slowly dissolve and bond to the paint, frequently
leaving a red stain. This stain can be present even on plastic surfaces such as bumpers if the
fallout has an iron content. These spots may be visible on both solid and metallic paints (especially
light colors). The particulate can be felt as a sharp point on the paint surface. When viewed through
a magnifying lens, the staining may be evident.
VEHICLE CARE
Every 10 days, or more frequently depending upon local conditions, particulate fallout must be
washed off with mild detergent and water to prevent its bonding and staining action. A good
carnuba wax coating can help protect against damage from particulate fallout.
PARTICULATE FALLOUT REPAIR PROCEDURE
In most cases, thoroughly washing the affected area with a water and mild detergent solution (to
avoid scratching the finish with dislodged particles) will remove the particulates.
After washing the vehicle, a stain, generally orange or red, may still be visible on white or other
light colored vehicles. This stain can be removed with a fine compound material. DO NOT APPLY
THE COMPOUNDING MATERIAL BEFORE ALL PARTICLES IN THE AFFECTED AREA ARE
REMOVED BY THOROUGH WASHING.
Water Spotting
A photograph of typical water spotting is shown on page 26 of the Nissan Paint Refinishing Guide*
(PIN 5REFGD). The spots are most visible when viewed at an angle, usually under fluorescent
light. The paint surface is usually smooth to the touch because the spotting is a change in the top
surface itself. This is not hard-water residue which will wash off with soap and water. These spots
are visible on both solid and metallic paints with dark colors.
VEHICLE CARE
When a vehicle is stored outside and unprotected, dust patterns develop on the painted surfaces.
These patterns guide moisture droplets from a light rain or morning dew to the same location each
time. The strong sunlight, repeatedly concentrated on these water droplets, greatly contributes to
the spotting.
Page 6846
Wheel Hub (Locking): Service and Repair Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Page 6623
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 618
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 5656
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9211
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3089
Leak Detection Sensor: Testing and Inspection
COMPONENT INSPECTION EVAP Control System Pressure Sensor
1. Remove EVAP control system pressure sensor with its harness connector connected. 2.
Remove hose from EVAP control system pressure sensor. 3. Use pump to apply vacuum and
pressure to EVAP control system pressure sensor as shown in figure. 4. Check output voltage
between ECM terminal (62) and engine ground.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -20 kPa (-150 mmHg, -5.91 inHg) or pressure over 20.0 kPa (150
mmHg, 5.91 inHg).
5. If NG, replace EVAP control system pressure sensor.
Page 592
Description (Part 1 Of 2)
Page 789
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8202
Comments regarding PAG refrigerant oils:
^ PAG oil absorbs moisture from the air at an exceptionally fast rate, and moisture can damage the
A/C system.
Page 7823
REMOVAL
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub.
Page 2850
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Brakes - ABS Sensor Precaution Using On Car Brake
Lathe
Wheel Speed Sensor: Technical Service Bulletins Brakes - ABS Sensor Precaution Using On Car
Brake Lathe
Classification: BR99-006
Reference: NTB99-040
Date: June 16, 1999
NISSAN ABS SENSOR CAUTION WHEN USING ON-CAR BRAKE LATHE
APPLIED VEHICLES: All Nissan Vehicles With ABS
SERVICE INFORMATION When using an on-car brake lathe to resurface rotors, be sure to
prevent metal shavings from contacting or collecting on the ABS wheel speed sensor. Metal
shavings that collect on the ABS wheel speed sensor may cause the ABS warning light to come
on, or, may cause intermittent activation of the ABS under normal braking conditions.
SERVICE PROCEDURE Use the following procedure to prevent accumulation of metallic shavings
on the ABS wheel speed sensor magnet when using an on-car brake lathe: 1.
When the vehicle is on the service lift, make sure the ignition key is in the "off" position.
NOTE:
Rotating a wheel, monitored by an ABS wheel speed sensor, while the ignition key is in the "on"
position, may trigger a wheel speed sensor error code. The warning light may remain on even after
the self diagnoses memory is cleared with CONSULT. If this occurs, the warning light will turn off
when driving over 9 mph (20 Km/h) after clearing the self diagnoses memory.
2. Prevent metal shavings from contacting or collecting on the ABS wheel speed sensor magnet
during rotor resurfacing.
3.
Clean and remove all metallic particles from the surface of the rotor and the ABS wheel speed
sensor magnet after rotor resurfacing. The ABS wheel speed sensor can be cleaned with
compressed air.
CAUTION:
Always wear safety goggles when applying compressed air.
NOTE:
If the rotor must be removed for cleaning and/or other purposes after resurfacing is complete, mark
its exact location on the axle prior to removal. Incorrect alignment during reinstallation will cause
the run-out to change, possibly exceeding specifications. This could require the rotor to be turned
again.
Page 1315
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Engine - Rattle Noise After Overnight Cold Soak
Timing Chain Tensioner: Customer Interest Engine - Rattle Noise After Overnight Cold Soak
Classification: EM99-001
Reference: NTB99-079
Date: October 28, 1999
1998-99 FRONTIER RATTLE NOISE AFTER OVERNIGHT COLD SOAK
APPLIED VEHICLE: 1998-1999 Frontier (D22) With KA24DE Engine
APPLIED ENGINE #: Prior to KA24-816611
SERVICE INFORMATION
Use this bulletin to perform repairs if an applied 1998 or 1999 Frontier equipped with a KA24DE
engine exhibits a rattle noise after sitting overnight (cold soak). The noise this bulletin addresses
would be evident in the valve cover area, and would last about three seconds. The noise would not
occur again until another overnight cold soak.
SERVICE PROCEDURE
Diagnose
This incident, if it occurs, would only be heard after an overnight soak. If a rattle noise can be
duplicated while the engine is warm, this bulletin does not apply. Refer to engine noise diagnoses.
Repair
Use the following procedure to replace the cam bracket bolts and upper chain tensioner:
1. Remove the valve cover and place a rag under the cam sprocket to prevent parts from falling
down into the timing cover.
2. Starting at the front cam bracket on the intake cam, remove the two bolts securing the cam
bracket to the head (see Figure 1). It is not necessary to remove the cam bracket.
3. Install two new (Counter Measure) bolts (P/N 13058-2J203) finger tight.
Page 5866
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3007
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1673
Comments regarding R-134a manifold gauge set:
^ Be certain that the gauge face indicates R134a or 134a.
^ Be certain that the manifold gauge set has the 1/2" - 16 ACME threaded connections for service
hoses, ensuring that only R-134a service hoses are used.
^ Be certain that no refrigerants other than R-134a (along with only specified lubricants) are used
with the manifold gauge set.
Page 9160
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2881
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 427
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1302
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3559
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3474
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 389
Ground Distribution
Page 1998
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 1352
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
Page 5528
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Specifications
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5322
Page 2542
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 196
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4145
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 489
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Oxygen Sensor - Thread Cleaning and Other Precautions
Catalytic Converter: All Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 4660
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7210
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Specifications
Page 4753
Type Of Standardized Relays (Part 2 Of 2)
Page 9451
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1139
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7533
^ Apply the brakes as shown.
^ Start the engine to allow brake boost.
^ Turn the engine OFF,
^ Remove all lock pins-front "turn plates" and rear "slide plates".
^ Make sure the bridge plate will not interfere with movement of the turn plate.
Put the bridge plate in the down position.
^ Perform caster sweep by turning the steering wheel from outside the vehicle.
Specifications
Brake Bleeding: Specifications
Air Bleeder Screw 5 - 7 ft.lb
Page 2909
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 569
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3583
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Hub, Rotor and Wheel Bearing
Wheel Hub (Locking): Service and Repair Hub, Rotor and Wheel Bearing
Page 2505
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3870
Optional Splice
Example Diagrams
Page 5737
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5061
Optional Splice
Example Diagrams
Page 97
Page 5708
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 514
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 564
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3154
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5761
Optional Splice
Example Diagrams
Page 8942
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2776
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8034
Wheel Hub (Locking): Service and Repair Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Page 8747
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2378
In the Administrator window select My Computer.
In the My Computer screen select Local Disc (C).
In the Local Disc (C) screen select Consult III folder.
In the Consult III screen/folder select ApplicationData folder.
In the ApplicationData screen/folder select PrintImages folder.
When the file was saved it was automatically given a file name using the current date and time.
Select and print the file/screen image that you want.
NOTE:
During reprogramming DTCs will set in several systems. DTCs must be erased from all systems.
Erase DTCs from all systems
22. Click on the "Home" icon (top left corner of the C-III screen).
23. Wait for the "Detecting VI/MI in progress" message to clear.
24. Select the detected VI from the list. (See Figure 12.)
25. Select Connect.
26. Wait for the "Checking the firmware version" message to clear.
Page 7597
2. Position vehicle on the front turn plates as follows:
^ Stop vehicle just behind the turn plates.
^ Center the turn plates to the tires.
^ Move the vehicle onto the turn plates by turning/pushing the rear wheel.
DO NOT push/pull on the vehicle body.
Page 4441
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 2496
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9523
Spot Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2649
Ground Distribution
Page 2392
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4530
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3624
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2229
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7632
Description (Part 1 Of 2)
Page 9510
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8308
Clockspring Assembly / Spiral Cable: Service and Repair Installation
INSTALLATION
Aligning Turn Signal Cancel Tab
1. Set the front wheels in the straight-ahead position. 2. Align the turn signal cancel tab with the
notch of the combination switch as shown.
3. Set the front wheels in the straight-ahead position. 4. Rotate the spiral cable fully clockwise until
tight.
Installation - Air Bag Module And Spiral Cable
5. Rotate the spiral cable counterclockwise as specified and align white pin with arrow on housing.
- Power Steering: Approx. 2.5 turns from neutral position.
- Manual Steering: Approx. 4 turns from neutral position.
When spiral cable is centered, white pin is aligned with arrow on housing and yellow wheel shows
in window.
CAUTION: The spiral cable may snap during steering operation if the spiral cable is installed
improperly. Also, with the steering linkage
Adjustments
Neutral Safety Switch: Adjustments
1. Remove control linkage and manual lever from manual shaft. 2. Set manual shaft in "N" position.
3. Loosen inhibitor switch fixing bolts. 4. Insert pin into adjustment holes in both inhibitor switch and
manual as near vertical as possible. 5. Tighten inhibitor switch fixing bolts. 6. Remove pin. 7.
Reinstall any part removed. 8. Adjust control linkage. Refer to Transmission and Drivetrain. 9.
Check continuity of inhibitor switch.
Page 5038
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 918
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Front Heated Oxygen Sensor
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor
COMPONENT INSPECTION Front heated oxygen sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "MANU TRIG" and "HI
SPEED" in "DATA MONITOR" mode with CONSULT, and select "FR O2 SENSOR" and "FR O2
MNTR". (3) Hold engine speed at 2,000 rpm under no load during the following steps. (4) Touch
"RECORD" on CONSULT screen. (5) Check the following.
- "FR O2 MNTR" in "DATA MONITOR" mode changes from "RICH" to "LEAN" to "RICH" 5 times in
10 seconds. 5 times (cycles) are counted as shown below: cycle | 1 | 2 | 3 | 4 | 5 | FR O2 MNTR
R-L-R-L-R-L-R-L-R-L-R R = "FR O2 MNTR", "RICH" L = "FR O2 MNTR", "LEAN"
- "FR O2 SENSOR" voltage goes above 0.6V at least once.
- "FR O2 SENSOR" voltage goes below 0.35V at least once.
- "FR O2 SENSOR" voltage never exceeds 1.0V.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (50) (sensor signal) and (32) (ECM ground). (3) Check the following with engine
speed held at 2,000 rpm constant under no load.
- Malfunction indicator lamp goes on more than 5 times within 10 seconds in Diagnostic Test Mode
II (FRONT HEATED OXYGEN SENSOR MONITOR).
- The maximum voltage is over 0.6V at least one time.
- The minimum voltage is below 0.35V at least one time.
- The voltage never exceeds 1.0V.
Page 1385
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
Page 2280
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6330
16. If there are no DTCs, select the "Repair" icon (see Figure 5).
^ If there are any DTCs other than those listed in the accompanying Symptom based TSB,
diagnose, perform repairs, and erase DTCs before continuing.
17. Select the "ECM Reprogram" icon. (See Figure 6.)
Page 7642
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Locations
Page 4673
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2401
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1121
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1395
SPECIAL TOOLS
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
Page 3323
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2422
Page 1510
Spark Plug: Application and ID
Spark Plug ID
Standard ..............................................................................................................................................
.............................................................. FR5AP-10 Cold ....................................................................
..............................................................................................................................................
FR6AP-10 Optional .............................................................................................................................
............................................................................... FR7AP-10
Page 5343
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6652
f. Temporarily assemble lower and upper bodies, using reamer bolt as a guide. Be careful not to dislocate or drop steel balls, orifice check spring and orifice check valve.
g. Install and temporarily tighten bolts and tube brackets in their proper locations.
2. Install solenoids.
a. Attach O-ring and install overdrive cancel solenoid valve and side plate onto lower body.
b. Attach O-ring and install torque converter clutch solenoid valve onto upper body.
3. Tighten bolt.
Control Valve Upper Body
Page 3596
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6682
Page 5858
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Locations
Seat Belt Buckle Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2766
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5125
Leak Detection Valve: Electrical Diagrams
EC-BYPS/V-01 Vacuum Cut Valve Bypass Valve (DTC: P1490)
Circuit Diagrams
Vacuum Cut Valve Bypass Valve (DTC: P1490)
Vacuum Cut Valve Bypass Valve (Circuit) Circuit Connectors
Page 4686
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Page 5814
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1399
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
Front Wheel Bearing
Wheel Bearing: Testing and Inspection Front Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
- Adjust wheel bearing preload if there is any axial end play or wheel bearing does not turn
smoothly.
Page 628
9. Use compressed air to remove any metal debris from inside the boss threads.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
10. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
11. Spray the boss threads with rust penetrant for 2 to 3 seconds.
12. Run a thread chaser through the boss to clean the threads.
^ Use Kent Moore part number J-43897-18 or J43897-12.
Page 697
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 750
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3633
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4596
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4877
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Page 977
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6105
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 4710
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3055
EGR Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION EGR Temperature Sensor
Check resistance change and resistance value. If NG, replace EGR temperature sensor.
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: All Technical Service Bulletins MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 8972
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Specifications
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7688
Page 9256
Type Of Standardized Relays (Part 2 Of 2)
Page 2652
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3689
Page 4688
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 6130
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9175
Backup Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3769
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5628
Ground Distribution
Page 7198
Wheel Cylinder: Service and Repair
Wheel Cylinder Overhaul
- Check all internal parts for wear, rust and damage. Replace if necessary.
- Pay attention not to scratch cylinder when installing pistons.
Page 8002
Axle Nut: Service and Repair Diagrams
Page 2535
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Passenger Air Bag Deactivation Switch
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
REMOVAL
Passenger Air Bag Module Deactivation Switch
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector. 3. Remove
instrument stay cover lower center. 4. Remove two screws and remove passenger air bag
deactivation switch.
INSTALLATION
CAUTION: Passenger air bag deactivation switch is keyed for proper installation. Improper
positioning of the switch will result in damage to the switch.
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 6175
Type Of Standardized Relays (Part 2 Of 2)
Page 7612
Alignment: Specifications King Pin Inclination
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
............................................... 10°18' (10.30°) Nominal ......................................................................
......................................................................................................................... 10°48' (10.80°)
Maximum .............................................................................................................................................
................................................ 11°18' (11.30°)
Page 274
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9505
Optional Splice
Example Diagrams
Page 4150
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 776
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5746
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6701
Page 7546
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
Page 4380
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3517
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9357
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3487
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7928
4. Apply multi-purpose grease to each bearing cone.
5. Pack grease seal lip with multi-purpose grease, then install it into wheel hub with suitable drift.
Page 3227
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1066
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 7487
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 4932
Canister Purge Volume Control Valve: Testing and Inspection
COMPONENT INSPECTION EVAP Canister Purge Volume Control Solenoid Valve
With CONSULT
1. Start engine. 2. Perform "PURG VOL CONT/V" in "ACTIVE TEST" mode with CONSULT. Check
that engine speed varies according to the valve opening.
If OK, inspection end. If NG, go to following step.
3. Check air passage continuity.
If NG, replace the EVAP canister purge volume control solenoid valve.
OR
Without CONSULT
Check air passage continuity. If NG or operation takes more than 1 second, replace solenoid valve.
Page 5417
Fuel Injector: Electrical Diagrams
EC-INJECT-01 Injector
Circuit Diagrams
Injector
Injector Circuit Connectors
Page 3768
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4135
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1459
Overall inspection sequence
Page 8590
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3579
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2302
3. Install thermostat with jiggle valve or air bleeder at upper side. 4. Install water inlet housing. 5.
Install water hose to water inlet housing. 6. Install air cleaner and air duct assembly. 7. Refill engine
coolant.
- After installation, run engine for a few minutes, and check for leaks.
Page 4335
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6832
Page 9280
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9262
The timer is canceled, and interior room lamp turns off when:
^ driver's door is locked with remote controller, or
^ ignition switch is turned ON.
The smart entrance control unit will shut off the room light if left on for 30 minutes.
ON-OFF control When the room lamp switch is in the "DOOR" position, when the driver side door
or passenger door is opened the room lamp turns on. When any door is opened and then closed
while the ignition switch is not in the ON position, the room lamp timer operates.
MODELS WITHOUT POWER DOOR LOCKS
Power is supplied at all times:
^ through 7.5 A fuse [No. [26], located in the fuse block (J/B)]
^ to room lamp terminal (+).
With the room lamp switch ON, ground is supplied:
^ through body grounds (M14) and (M68)
^ to room lamp terminal (-).
When a door is opened with the room lamp switch in "DOOR" position, ground is supplied:
^ through door switch LH or RH terminal (1)
^ to room lamp switch terminal (SW).
With power and ground supplied, the room lamp turns ON.
Testing and Inspection
Air Conditioning Switch: Testing and Inspection
Check continuity between terminals at each switch position.
A/C - Refrigerant Charging Equipment Maintenance
Refrigerant: Technical Service Bulletins A/C - Refrigerant Charging Equipment Maintenance
Classification: HA00-001
Reference: NTB00-026
Date: March 13, 2000
ACR4 REFRIGERANT MACHINE MAINTENANCE
APPLIED VEHICLES: All Nissan Vehicles with R-134a Air Conditioning
SERVICE INFORMATION
To ensure accurate air conditioning system diagnosis and repair, it is critical that periodic
maintenance be performed on your refrigerant charging equipment (ACR4 machine) and that
proper operating techniques be used. Additionally, as refrigerant charge amounts continue to
become smaller, it is vital that your refrigerant charging equipment be as accurate as possible.
SERVICE PROCEDURE
Use the information listed under the "Maintenance" section of this bulletin to "tune-up" your ACR4
machine to keep it operating at top performance. Refer to information listed under "Operational
Tips" to ensure the highest level of charging accuracy when using the ACR4 machine.
IMPORTANT: ACR4 maintenance should be conducted following the manufacture's instructions
and recommended schedule. For details about performing ACR4 maintenance, refer to the ACR4
Operating Instruction Manual (Tech-Mate P/N J39500-7). Additional information related to ACR4
maintenance and operation is available in the May 1998 edition of Tech Talk and SIR video # 57.
The ACR4 Operating Instruction Manual can be ordered from Tech-Mate by calling 800-662-2001.
NOTE: A maintenance kit is available for the ACR4 machine through Tech-Mate (P/N
J-39500-MAINT). The kit includes: vacuum pump oil, a desiccant/filter and two O-rings (for the
desiccant/filter). The ACR4 Maintenance Kit can be ordered from Tech-Mate by calling
800-662-2001.
Maintenance
Vacuum Pump Oil
Change the vacuum pump oil every 10 hours of operation (when display reads "OIL") or sooner if
contamination is seen through the sight glass (see Figure 1).
Filter/Dryer
Page 9186
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5654
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1269
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5924
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9122
Optional Splice
Example Diagrams
Page 9144
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 115
21. When the screen in Figure 10 appears, ECM reprogramming is complete.
NOTE:
If you can't print the above screen:
a. Select the Print icon.
b. Select Save.
c. Select OK.
A copy of the screen is now saved in the Toughbook(R) PC.
NOTE:
If you saved a copy of the screen in Figure 10 and need to print it at a later date, you can find it in
the following file location:
At the bottom left corner of the computer screen click on Start.
Page 1468
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 7026
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4262
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 503
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Diagram Information and Instructions
Idle Speed/Throttle Actuator - Electronic: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4959
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1443
1. Both camber and caster angles are adjusted by adjusting bolts.
- If the kingpin inclination is outside specifications, check the front suspension parts for wear or
damage. Replace faulty parts with new ones.
2. From the measured value, read the coordinate (or: graduation) at the intersecting point in the
graph.
a. If the coordinate (or graduation) at the intersecting point is positive, move the pin outward by
turning the corresponding adjusting bolt by the
indicated graduation.
b. If the coordinate (or graduation) at the intersecting point is negative, move the pin inward by
turning the corresponding adjusting bolt by the
indicated graduation. After properly moving the pin(s), tighten the front and rear adjusting bolts to
specifications.
3. Re-measure to ensure that the camber and caster are within specified tolerances.
[Example] a. Measured values corresponding with the two values indicated below: (See Chart for
4WD models.)
Camber angle: -0° 06' (-0.10°) Caster angle: 2°10' (2.17°)
Page 6085
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3002
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7057
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7079
Type Of Standardized Relays (Part 2 Of 2)
Page 7431
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 9288
Ground Distribution
Page 8922
Description (Part 1 Of 2)
Page 9162
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9364
Ground Distribution
Page 429
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3929
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1883
- Air duct
13. Install vacuum hoses, fuel tubes, wires, harness and connectors and so on.
Page 7641
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2623
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 9554
Ground Distribution
Page 2541
Ground Distribution
Page 7235
Brake Proportioning/Combination Valve: Service and Repair
NOTE: Always replace together with master cylinder as an assembly.
Page 5397
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4051
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2998
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6090
Ignition Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Body - Windshield Cracking Information
Windshield: Technical Service Bulletins Body - Windshield Cracking Information
Classification: BT09-052
Reference: NTB09-091
Date: August 25, 2009
WINDSHIELD CRACKING
APPLIED VEHICLES: All Models
SERVICE INFORMATION
The Purpose of this bulletin is to give Nissan dealers guidelines to help determine if windshield
breakage is covered under warranty or is the customer's responsibility. Nissan North America
(NNA) is not responsible for damage to glass that is a result of objects striking or scratching the
glass. However, NNA is responsible for manufacturing issues such as distorted glass and cracks
that are due to improper installation or damage to the glass during vehicle assembly. NNA typically
does not find any type of cracks in the windshield due to stress in vehicles with over 5000 miles.
Glass damage can be categorized in 3 general areas:
1. Cracks due to objects striking the glass.
2. Cracks due to scratch in glass surface.
3. Distortion or cracks due to manufacturing issues.
CLAIMS INFORMATION
Part Return Process Reminder
Refer to WB/07-010: Nissan is announcing a new requirement in the process for parts return to
assist engineers in analyzing part issues. Dealers are now required to mark glass and other
components returned that have "visible issues" using a grease pencil or similar instrument to
highlight the area damaged.
1) How to determine if glass damage is due to objects striking the glass.
Cracks from objects striking the glass
Page 5390
Description (Part 1 Of 2)
Page 3290
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 948
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Locations
Page 523
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9298
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3673
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3306
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3990
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6856
- When installing center bearing, position the "F" mark on center bearing toward front of vehicle.
- Apply a coat of multi-purpose lithium grease containing molybdenum disulfide to the end face of
the center bearing and both sides of the washer.
- Stake the nut. Always use new one.
- Align match marks when assembling tubes.
JOURNAL
1. Assemble journal bearing. Apply recommended multi-purpose grease on bearing inner surface.
When assembling, be careful that needle bearing does not fall down.
2. Select snap ring that will provide specified play in axial direction of journal, and install them.
Select snap rings with a difference in thickness at both sides within 0.06 mm (0.0024 inch).
Page 7017
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1323
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 1207
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2357
Page 8592
Radio/Stereo: Connector Views
Audio (Part 1 Of 2)
Base Audio System Circuit Connectors
Audio (Part 2 Of 2)
Premium Audio System Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
Page 5882
Optional Splice
Example Diagrams
Page 5937
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7212
Brake Caliper: Specifications
Piston Cylinder Bore Diameter 1.685 in
No. Of Cylinders 2
Connecting Bolt 12 - 14 ft.lb
Bleeder Screw 61 - 78 in.lb
Main Pin Bolts 16 - 23 ft.lb
Torque Member Fixing Bolt 53 - 72 ft.lb
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 3248
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5731
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4718
Type Of Standardized Relays (Part 2 Of 2)
Page 9430
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7817
1. Remove shock absorber.
2. Separate upper ball joint stud from knuckle spindle.
CAUTION: Support lower link with jack.
3. Put matching marks on adjusting bolts and remove adjusting bolts.
INSTALLATION
1. While aligning the adjusting bolts with the matching marks, install the upper link.
If a new upper link or any other suspension part is installed, align the matching mark with the slit as
indicated in the figure, then install the upper link.
2. Install shock absorber.
3. Tighten adjusting bolts under unladen condition with tires on ground.
4. After installing, check wheel alignment. Adjust if necessary.
DISASSEMBLY
Page 437
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 570
Ground Distribution
Page 3081
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1688
Page 7011
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6326
^ C-III PCMCIA Card Adapter is installed.
^ C-III Security Card is installed.
^ A screen print for Warranty documentation can be done from C-III during this process while still
cable-connected to the vehicle.
1. Use the USB cable to connect the Vehicle Interface (VI) to the C-III computer and then connect
the VI to the vehicle.
CAUTION
2. Connect the AC Adapter to the C-III computer.
CAUTION
3. Connect a battery charger to the vehicle battery:
For Conventional Vehicles
^ Set the battery charger at a low charge rate.
NOTE:
The GR-8 (Battery and Electrical Diagnostic Station) set to "Power Supply" mode is recommended.
CAUTION
For Hybrid Vehicles
^ Use the GR-8 Battery and Electrical Diagnostic Station.
^ If needed, refer to Hybrid Service TSBs for connecting the GR-8 to the Hybrid 12V battery.
Page 975
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 49
Control Module HVAC: Testing and Inspection Thermo Control Amp. Check
POWER SUPPLY CIRCUIT CHECK
Check power supply circuit for thermo control amp. with ignition switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect voltmeter from harness side. 3.
Measure voltage across terminal (1) and body ground.
GROUND CIRCUIT CHECK
Check body ground circuit for thermo control amp. with ignition switch ON, air conditioner switch
ON and fan switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect ohmmeter from harness side. 3.
Check for continuity between terminal No. (2) and body ground.
If the ground circuit is NG, check the following.
- A/C switch
- Fan switch
- Harness for open or short between thermo control amp. and A/C switch
- Harness for open or short between A/C switch and fan switch
- Fan switch ground circuit.
Specifications
Intake Air Temperature Sensor: Specifications
Resistance 2.1 - 2.9 K ohms at 68 deg F
0.27 - 0.38 K ohms at 176 deg F
Page 4473
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6207
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7568
Alignment: By Symptom
Technical Service Bulletin # 08-097D Date: 110426
Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
Page 2720
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3286
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 96
Page 1310
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 572
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4053
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3982
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Diagram Information and Instructions
Leak Detection Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1097
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3473
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3101
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Service and Repair
Shift Fork: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Manual Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 8031
2. Remove brake caliper assembly without disconnecting hydraulic line.
CAUTION: Be careful not to depress brake pedal, or piston will pop out.
- Make sure brake hose is not twisted.
3. Remove lock washer. (4WD)
4. Remove wheel bearing lock nut.
2WD: With suitable tool 4WD: With Tool
5. Remove wheel hub and wheel bearing.
CAUTION: Be careful not to drop outer bearing.
6. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
DISASSEMBLY
Capacity Specifications
Fluid - Transfer Case: Capacity Specifications
Specified amount .................................................................................................................................
................................................ 2.375 qts. (2.2 Liters)
Page 8315
Impact Sensor: Locations G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit.
Page 917
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8584
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3636
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5017
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 7036
Torque Converter Clutch Solenoid: Connector Views
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7872
1. Move dust cover.
2. Paint matching marks on the torsion bar spring and the corresponding arm.
NOTE: Always use paint to place the matching mark; do not scribe the affected parts.
3. Measure anchor bolt protrusion "L" and remove the lock nut and adjusting nut.
CAUTION: Before removing the nuts, ensure that twisting force is eliminated from the torsion bar
springs.
4. Remove torsion bar spring.
- Pull out anchor arm rearward, then withdraw torsion bar spring rearward. (2WD)
- Remove torque arm. (2WD)
- Remove torque arm fixing nuts, then withdraw torsion bar spring forward with torque arm. (4WD)
INSPECTION
- Check torsion bar spring for wear, twist, bend and other damage.
- Check serrations of each part for cracks, wear, twist and other damage.
- Check dust cover for cracks.
INSTALLATION AND ADJUSTMENT
NOTE: Adjustment of anchor arm adjusting nut is in tightening direction only.
- Do not adjust by loosening anchor arm adjusting nut.
1. Install torque arm to lower link. (2WD)
2. Coat multi-purpose grease on the serration of torsion bar spring.
Page 8778
area (2' x 2' or less). Spread the liquid around with the pad before turning the buffer "ON". Use an
overlapping pattern to assure even polishing effort on all areas.
3. Second use a dual action sander with either a 3M foam pad or a Meguiar's foam pad, apply
polishing liquid over the work area (2' x 2' or less). Polish with the same technique as above. Do
not polish dry, wipe off excess material with a clean terry cloth towel.
If build up occurs, cool the surface with clean water and dry with a clean terry cloth towel and clean
the foam pad. Use a slower speed to prevent heating the surface and ground the vehicle to a metal
water pipe to reduce static electricity.
INSPECTION
Gently clean a small section with PPG DX330 Wax and Grease remover or similar wax remover,
using a clean towel to remove any polish/filler. Wipe in one direction to aid in distinguishing
between buffing scratches and towel scratches. Inspect the surface for swirl marks under full
sunlight or with a 500 watt halogen work lamp held at an angle about an arms length away.
CAUTION:
If you clean with an alcohol and water cleaning solution it will cause damage to plastic lenses. The
damage is not immediately visible, but develops later
Buffing
Buffing is done with a 8" buffer at 1500-1750 RPM to remove sanding scratches.
1. Clean the surface of all residue before buffing.
2. Apply a buffing liquid and spread it over the work area (2' x 2' or less) with the buffing pad before
turning the buffer "ON". Keep the pad nearly flat and move it slowly but continuously over the area.
Use an overlapping pattern to assure even buffing effort on all areas. Do not buff dry, wipe off
excess material with a clean terry cloth towel.
INSPECTION
Inspect the surface for sanding marks under full sunlight or with a 500 watt halogen work lamp held
at an angle about an arms length away. If necessary, gently clean a small section of the surface
with PPG DX330 Wax and Grease remover or similar wax remover, using a clean towel to remove
any polish/filler. Wipe in one direction to aid in distinguishing between buffing scratches and towel
scratches.
Sanding
1. Soak the sand paper in water with lubricant such as Meguiar's # 0016, for at least 15 minutes
before use. Mask the fenders and doors to reduce cleanup time. Wet sanding with a lubricant
prevents buildup on the paper and consequent gouging of the finish.
2. Sand with 2000 grit sand paper using a sanding pad, never by hand alone. Apply plenty of water
while sanding in one direction only, no more than 12-15 strokes. Do not sand in a circular pattern.
Do not sand over body lines and panel edges. Rinse the paper frequently to prevent gouging.
NOTE:
Wet sanding vehicles with the New Cross Link Clear Coat (NCLC) hard clear coat requires a more
aggressive sanding stroke. Vehicles with a conventional clear coat require a normal sanding
stroke.
3. Rinse with water and squeegee gently. As the squeegee clears the water, inspect for damage.
INSPECTION
Inspect the surface for damage under both strong fluorescent lights and full sunlight (a 500 watt
halogen work lamp held at an angle about an arms length away is necessary on cloudy days). A
smooth dull sanded surface is expected at this time. Bright spots or other irregularities indicate the
damage needs more sanding, up to the 0.5 mil standard.
4. After the damage is removed, measure the paint thickness in several places to determine if less
than 0.5 mil has been removed.
5. If the damage was deeper than 0.5 mil, the surface must be re-clear coated, or re-color coated
on vehicles with no clear coat. Refer to the Warranty Paint and Body Self-Study Course, or the
Warranty Flat Rate Manual for assistance.
6. If the damage has been removed with less than 0.5 mil of the color/clear coat removed, buff and
polish to remove the sanding marks.
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 6149
Optional Splice
Example Diagrams
MIL ON - DTC P1440, P1444, or P1491 (EVAP)
Canister Purge Solenoid: All Technical Service Bulletins MIL ON - DTC P1440, P1444, or P1491
(EVAP)
CLASSIFICATION: EC98-034
REFERENCE: NTB98-113
DATE: February 1, 1999
TITLE: 1998-99 FRONTIER MIL ON WITH DTC P1440, P1444, OR P1491 STORED IN THE ECM
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED VIN: Vehicles built before 1N6DD26SXXC315372
APPLIED DATE: Vehicles built before October 21, 1998
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If a 1998-99 Frontier has a MIL ON with DTC P1440, P1444 or P1491 stored in the ECM, the
cause may be contamination in the purge volume control valve. Rust inside of the solenoid bracket
metal pipe may be the source of the contamination. Contamination can enter the purge volume
control valve and cause it to stick open.
Use the following service procedure to resolve this incident, if it should occur.
SERVICE PROCEDURE
1. Disconnect the intake manifold vacuum hose from the solenoid bracket metal pipe (intake
manifold side). See Figure 1.
2. Connect a vacuum pump to the solenoid bracket metal pipe (intake manifold side). See Figure 1.
3. Apply vacuum to the purge volume control valve.
A. If vacuum cannot be maintained (valve is leaking), replace the purge volume control valve and
proceed with step 4.
B. If vacuum can be maintained (valve is not leaking), proceed with step 4.
Page 9612
condition.
A magnifying glass (10X magnification) must be used to identify wiper scratches as a start point of
cracks in the glass.
^ Inspect the wiper paths (may be a single scratch of a group of scratches)
^ Small scratches can cause a small rupture in the outer glass surface, which can lead to a crack
from thermal conditions, vehicle vibration during
driving, or wind pressure.
A magnifying glass (10X magnification) must be used to identify metal object scratches as a start
point of cracks in the glass.
^ Scratches can occur from metal objects such as keys and metal buttons.
^ These scratches are typically sharp and can be found anywhere on the glass surface.
^ Thoroughly examine the entire length of the crack to identify any scratch as a start point.
^ Small scratches can cause a small rupture in the outer glass surface, which can lead to a crack
from thermal conditions, vehicle vibration during
driving, or wind pressure.
A magnifying glass (10X magnification) must be used to identify scratches caused by a
contaminated towel as a start point of cracks in the glass.
^ Scratches can occur from wiping the glass with a towel that has sand particles or dirt on it.
Page 3336
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3460
Absolute Pressure Sensor: Testing and Inspection
COMPONENT INSPECTION Absolute pressure sensor
1. Remove absolute pressure sensor with its harness connector connected. 2. Remove hose from
absolute pressure sensor. 3. Turn ignition switch "ON" and check output voltage between ECM
terminal (45) and engine ground.
The voltage should be 3.2 to 4.8 V.
4. Use pump to apply vacuum of -26.7 kPa (-200 mmHg, -7.87 inHg) to absolute pressure sensor
as shown in figure and check the output voltage.
The voltage should be 1.0 to 1.4 V lower than the value measured in step 3.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -93.3 kPa (-700 mmHg, -27.56 inHg) or pressure over 101.3 kPa
(760 mmHg, 29.92 in Hg).
5. If NG, replace absolute pressure sensor.
Page 6855
1. Place matching marks on propeller shaft and flange or yoke.
2. Remove snap ring.
3. Remove pushed out journal bearing by lightly tapping yoke with a hammer, taking care not to
damage journal and yoke hole.
4. Remove bearing at opposite side in above operation.
Put marks on disassembled parts so that they can be reinstalled in their original positions.
ASSEMBLY
CENTER BEARING
Page 3038
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4630
Ground Distribution
Page 7873
3. Place lower link in the position where bound bumper clearance "C" is O.
Clearance "C": O mm (O inch)
4. Install torsion bar spring. (2WD)
Install torsion bar spring with torque arm. (4WD)
NOTE: Be sure to install right and left torsion bar springs correctly.
5. While aligning the anchor arm with the matching mark, install the anchor arm to the torsion bar
spring.
If a new torsion bar spring or anchor arm is installed, adjust anchor arm length to the dimension
indicated in the figure. Standard length "G":
(2WD) = 6 - 18 mm (0.24 - 0.71 inch) (4WD) = 25 - 39 mm (0.98 - 1.54 inch)
Page 4506
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 8574
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6236
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 105
Drivetrain - Transfer Case Noise/Hard Shifting
Tires: All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 4006
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 5118
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5140
Description (Part 1 Of 2)
Page 3979
Description (Part 1 Of 2)
Page 3623
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7144
Brake Pad: Service and Repair
WARNING: CLEAN BRAKE PADS WITH A VACUUM DUST COLLECTOR TO MINIMIZE THE
HAZARD OF AIRBORNE MATERIALS.
CAUTION:
^ When cylinder body is open, do not depress brake pedal or caliper piston will pop out.
^ Be careful not to damage piston boot or get oil on rotor. Always replace shims when replacing
pads.
^ If shims are rusted or show peeling of the rubber coat, replace them with new shims.
^ It is not necessary to remove connecting bolt except for disassembly or replacement of caliper
assembly. In this case, suspend cylinder body with wire so as not to stretch brake hose.
1. Remove master cylinder reservoir cap.
2. Remove lower pin bolt.
3. Open cylinder body upward. Then remove pad retainers, return spring and inner and outer
shims.
Standard pad thickness: 10 mm (0.39 inch) Pad wear limit: 2.0 mm (0.079 inch)
NOTE: Carefully monitor brake fluid level because brake fluid will return to reservoir when pushing
back piston.
Page 9275
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6253
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7951
Print this page and keep it by your tire mounting equipment
Page 7469
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Passenger Compartment (Part 1 Of 2)
Passenger Compartment
Page 6621
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2907
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6023
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1150
ECCS Component Parts Location
ECCS Component Parts Location
Locations
Security Lamp/Indicator: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 5525
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6490
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6409
Ground Distribution
Page 2602
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2913
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 5083
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3312
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 2646
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 8219
Refrigerant Oil: Fluid Type Specifications TYPE
TYPE
PAG TYPE PAG PART NUMBER
R KLH00-PAGR1 or R2
Page 6437
Clutch: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Automatic Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 3168
Optional Splice
Example Diagrams
Diagram Information and Instructions
EGR Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2997
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 741
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6027
Ignition Control Module: Testing and Inspection
COMPONENT INSPECTION Power Transistor
1. Disconnect camshaft position sensor & power transistor harness connector and ignition coil
harness connector.
2. Check power transistor resistance between terminals (2) and (8).
If NG, replace distributor assembly.
Restraints - Seat Belt Retract Slowly
Seat Belt Retractor: All Technical Service Bulletins Restraints - Seat Belt Retract Slowly
Classification: RS01-001B
Reference: NTB01-005B
Date: November 12, 2009
"D" RING RESIDUE CAN CAUSE SLOW SEAT BELT RETRACTION
This bulletin amends NTB01-005a. Please discard all previous versions of this bulletin.
APPLIED VEHICLES
IF YOU CONFIRM
Seat belt retraction of front seat belt(s) is slow, caused by "residue" build-up on the "D" ring(s).
ACTION
Use the "D" ring cleaning and refurbishing kit to:
^ Clean the residue off of the "D" rings.
^ Apply fluorine resin tape to the "D" rings.
IMPORTANT:
The purpose of "ACTION" (above) is to give you a quick idea of the work you will be performing.
You MUST closely follow the entire Service Procedure as it contains information that is essential to
successfully completing the repair.
Page 140
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4372
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3688
Page 3886
Ground Distribution
Page 3261
Ground Distribution
Page 2342
Page 3381
Page 482
Description (Part 1 Of 2)
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9350
Description (Part 1 Of 2)
Page 4731
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7322
Quick Battery Charge
Page 6477
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Locations
Safing Sensor: Locations
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit.
Page 7504
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 769
Optional Splice
Example Diagrams
Page 816
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Fuel System - Cold Weather Engine Starting Tips
Engine Oil: Technical Service Bulletins Fuel System - Cold Weather Engine Starting Tips
Classification: PI95-005A
Reference: NTB95-120A
Date: January 10, 2003
COLD WEATHER STARTING TIPS
This bulletin supersedes PI95-005. The Service Information has been amended. Please discard all
paper copies of PI95-005
APPLIED VEHICLE(S): All models
SERVICE INFORMATION
In case a vehicle is hard to start during cold weather, we suggest the following procedure.
^ These steps are a review of the procedure outlined in the Owner's Manual.
^ Use these steps when the weather is cold and the engine is hard to start.
1. Press the accelerator pedal down approximately 1/3 of the way to the floor.
2. Hold the accelerator pedal in this position while cranking the engine.
3. Once the engine has started release the accelerator pedal.
NOTE:
Do not race the engine while warming it up.
4. If the engine does not start within 15 seconds, stop cranking, wait at least 10 seconds. Then
repeat steps 1 through 3.
Once an engine is started in cold weather condition:
^ You should keep the engine running for a minimum of 2-3 minutes before shutting it off.
^ Starting and stopping of the engine over a short period of time may make the vehicle more
difficult to restart.
^ It may also adversely affect a vehicle's fuel economy.
Another factor which may affect a vehicles "startability" is the viscosity or thickness of the oil that is
used.
^ SAE 5W-30 viscosity engine oil is preferred for all temperatures, all year-round for most models.
^ SAE 5W-30 viscosity oil makes it easier to start the engine and maintain a stable idle during
warm-up.
Please communicate these cold weather starting tips to your customers.
Disclaimer
Page 3332
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4778
Description (Part 1 Of 2)
Page 9469
Parking Lamp: Electrical Diagrams
EL-TAIL/L-01 Parking, License, And Tail Lamps Wiring Diagram (Part 1 Of 2)
Page 4545
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2552
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 6765
Axle Shaft: Capacity Specifications
Final Drive Side
..........................................................................................................................................................
95 - 105 grams (3.35 - 3.70 ounce) Wheel Side ..................................................................................
.............................................................................. 135 - 145 grams (4.76 - 5.11 ounce)
Page 1668
Page 2718
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 829
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Specifications
Impact Sensor: Specifications Crash Zone Sensor
Crash Zone Sensor
Special Bolt(s) 15 - 25 Nm
Page 2379
27. Select the correct vehicle and model year from the list (see Figure 13 example).
28. Select Select
29. Make sure the correct vehicle is displayed (see Figure 14 example).
30. Select Confirm
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6119
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1420
2. Position vehicle on the front turn plates as follows:
^ Stop vehicle just behind the turn plates.
^ Center the turn plates to the tires.
^ Move the vehicle onto the turn plates by turning/pushing the rear wheel.
DO NOT push/pull on the vehicle body.
Page 5485
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3161
Fuel Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The tank fuel temperature sensor is used to detect the fuel temperature inside the fuel tank. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the fuel
temperature input. The sensor uses a thermistor which is sensitive to the change in temperature.
The electrical resistance of the thermistor decreases as temperature increases.
Campaign - A/C Hose Replacement
Technical Service Bulletin # 98-064 Date: 980908
Campaign - A/C Hose Replacement
Reference: NTB98-064
Date: September 8, 1998
VOLUNTARY SERVICE CAMPAIGN 1998 FRONTIER POOR OR NO A/C COOLING DUE TO A/C
LOW HOSE CRACKING
CAMPAIGN I.D. # P8163
APPLIED VEHICLE: All 1998 Frontier (D22) built before VIN # 1N6DD2***WC387655
INTRODUCTION
Some 1998 Frontiers may develop refrigerant leaks in the vehicle's air conditioner lower return
hose due to vibration. To ensure customer satisfaction and prevent any future inconvenience,
Nissan has initiated a Voluntary Service Campaign to install a bracket on the lower return hose of
the air conditioning system to minimize this vibration.
IDENTIFICATION NUMBER
Nissan has assigned identification number P8163 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
The number of vehicles potentially affected is approximately 90,000.
DEALER RESPONSIBILITY
It is a dealer responsibility to check (with SERVICE-COMM) each vehicle falling within the range of
this service campaign which for any reason enters the service department. This includes vehicles
purchased from your dealership, other Nissan dealerships, private parties, or vehicles presented by
transient (tourist) owners and vehicles in dealer inventory.
A list of affected customers in your area will be sent to Nissan regional offices for distribution to
Nissan dealers once all of the customer notification letters have been sent. This list will assist you
in identifying those vehicles involved in this service campaign. Each dealership service department
is encouraged to contact these vehicle owners to have the required inspections and repairs
completed on their vehicle.
CUSTOMER FOCUS
Maintaining a strong customer relationship throughout the Frontier Air Conditioner Lower Return
Hose Campaign is one of the key goals of NMC. Each and every action taken by Nissan and the
servicing dealer will have a significant impact in retaining current Frontier owners as future
customers.
Page 3595
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6283
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1075
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 6945
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Specifications
Diagnosis Sensor Unit: Specifications Diagnosis Sensor Unit
Diagnosis Sensor Unit
Special Bolt 15 - 25 Nm
Page 3777
Ground Distribution
Page 3469
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5780
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8724
Description (Part 1 Of 2)
Page 8179
Technical Service Bulletin # 92-001 Date: 920101
A/C - System Changes As Result of R-134A Refrigerant
Classification: HA92-OO1
Reference: NTB92-OO1
Date: January 1992
A/C SYSTEM CHANGES FOR R-134A REFRIGERANT
(ALL MODELS)
APPLIED VEHICLE(S): All Models
Service Information
Introduction
Due to its harmful effect on the ozone layer, R-12 is being phased out and replaced by R-134a,
which does not harm the ozone layer. While the R-134a A/C system is very similar to an R-12 A/C
system, the differences in the refrigerant, lubricants, and service equipment are important.
Nissan A/C systems will change from R-12 to R-134a at the time of new vehicle (full model change)
introduction, or in some cases by model year update to an existing model line.
This bulletin describes all of the general differences between the R-12 and R-134a systems. For
details of an R-134a system for a specific model, refer to that model's service manual or new
product information.
Refrigerant Handling Precautions
^ R-12 refrigerant and R-134a refrigerant must never be mixed, even in the smallest amounts, as
they are incompatible with each other. If the refrigerants are mixed, compressor failure is likely to
occur.
^ Use only specified lubricant for the R-134a A/C system and R-134a components. If lubricants
other than those specified are used, compressor failure is likely to occur.
^ The specified R-134a lubricant absorbs moisture from the atmosphere at a rapid rate, therefore
the following handling precautions must be observed:
^ When removing refrigerant components from a vehicle, immediately cap (seal) the component to
minimize the entry of moisture from the atmosphere.
^ When installing refrigerant components to a vehicle, do not remove the caps (unseal) until just
before connecting the components. Also, complete the connection of all refrigerant tubes and
hoses without delay to minimize the entry of moisture into the system.
^ Use the specified lubricant from a sealed container only. Containers must be re-sealed
immediately after dispensing the lubricant. Lubricant in containers which are not properly sealed
will become moisture saturated. Such lubricant is no longer suitable for use and should be properly
disposed.
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose and
throat. Use only approved service equipment meeting SAE standards to discharge R-134a
Systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service.
^ Always wear eye and hand protection (goggles and gloves) when working with any refrigerant or
air conditioning system.
^ Do not store or heat refrigerant containers above 125° (52°C).
^ Do not heat a refrigerant container with an open flame; if container warming is required, place the
bottom of the container in a pail of warm water.
^ Do not intentionally drop, puncture, or incinerate refrigerant containers.
^ Keep refrigerant away from open flames: hazardous gas will be produced if refrigerant burns.
^ Refrigerant will displace oxygen, therefore be certain to work in well ventilated areas to prevent
suffocation.
Page 5779
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 490
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1168
Ground Distribution
Page 6075
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7929
Wheel Hub (Locking): Service and Repair Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Page 2511
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3212
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 7158
Brake Rotor/Disc: Technical Service Bulletins Brakes - ABS Sensor Precaution Using On Car
Brake Lathe
Classification: BR99-006
Reference: NTB99-040
Date: June 16, 1999
NISSAN ABS SENSOR CAUTION WHEN USING ON-CAR BRAKE LATHE
APPLIED VEHICLES: All Nissan Vehicles With ABS
SERVICE INFORMATION When using an on-car brake lathe to resurface rotors, be sure to
prevent metal shavings from contacting or collecting on the ABS wheel speed sensor. Metal
shavings that collect on the ABS wheel speed sensor may cause the ABS warning light to come
on, or, may cause intermittent activation of the ABS under normal braking conditions.
SERVICE PROCEDURE Use the following procedure to prevent accumulation of metallic shavings
on the ABS wheel speed sensor magnet when using an on-car brake lathe: 1.
When the vehicle is on the service lift, make sure the ignition key is in the "off" position.
NOTE:
Rotating a wheel, monitored by an ABS wheel speed sensor, while the ignition key is in the "on"
position, may trigger a wheel speed sensor error code. The warning light may remain on even after
the self diagnoses memory is cleared with CONSULT. If this occurs, the warning light will turn off
when driving over 9 mph (20 Km/h) after clearing the self diagnoses memory.
2. Prevent metal shavings from contacting or collecting on the ABS wheel speed sensor magnet
during rotor resurfacing.
3.
Clean and remove all metallic particles from the surface of the rotor and the ABS wheel speed
sensor magnet after rotor resurfacing. The ABS wheel speed sensor can be cleaned with
compressed air.
CAUTION:
Always wear safety goggles when applying compressed air.
NOTE:
If the rotor must be removed for cleaning and/or other purposes after resurfacing is complete, mark
its exact location on the axle prior to removal. Incorrect alignment during reinstallation will cause
the run-out to change, possibly exceeding specifications. This could require the rotor to be turned
again.
Page 1475
Idle Speed: Specifications IDLE SPEED
IDLE SPEED
Idle speed M/T 800 +/- 50 RPM
Idle speed A/T ( in N position) 800 +/- 50 RPM
Refer to idle speed adjustments
Diagram Information and Instructions
Vehicle Speed Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5979
Ground Distribution
Page 3806
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6233
Description (Part 1 Of 2)
Page 6003
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4966
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2614
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8811
3M materials:
Meguiar's materials:
Misc:
8" buffer (1500-1750 RPM) Dual action sander, variable speed Terry cloth towels (100% cloth)
NOTE:
Always use separate pads for each liquid (mark the backside of each pad with the type of liquid
used) and clean the pads frequently. Use of a wool pad on clear coat is limited to the polishing type
of pad and is always followed by a foam Dad on a dual action sander to remove swirl marks.
Measuring Paint Film Thickness
Before any abrasive removal, measure the initial film thickness at several places to establish an
average figure. After each abrasive step measure several places again to determine how much
paint film was removed. Follow the instructions provided by the manufacturer of the mil gauge you
are using for measurement and calibration. If you do not have a thickness gauge use the following
rule of thumb during abrasive removal; When the "orange peel" surface is removed, 0.5 mil has
been removed.
Polishing
Polishing is done in two steps: The first step is with an 8" buffer and the second step with a dual
action sander to remove buffing and swirl marks. Low speed (1500-1750 RPM) is necessary to
prevent overheating the surface.
CAUTION:
Do not polish or buff a surface dry. More than the usual quantity of liquid must be used to keep the
paint surface cool. Wipe the excess material off with a clean soft towel after each operation
1. Clean the surface of all residue before polishing.
2. Use an 8" buffer (at 1500 - 1750 RPM) with either a 3M wool polishing pad or a Meguiar's foam
pad, apply polishing compound over the work
Page 4982
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 1911
Rocker Cover
Camshaft Brackets
Page 7801
Ball Joint: Specifications Lower Ball Joint
DIMENSIONS
Axial End Play .....................................................................................................................................
................................... 0.2 mm (0.008 inch) or less
TIGHTENING SPECIFICATIONS
Castle Nut ............................................................................................................................................
............................. 118 - 191 Nm (87 - 141 ft. lbs.)
Page 5618
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 287
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Specifications
Water Pump: Specifications
CAUTION: When removing water pump assembly, be careful not to get coolant on drive belts.
- Water pump cannot be disassembled and should be replaced as a unit.
- After installing water pump, connect hose and clamp securely, then check for leaks using radiator
cap tester.
REMOVAL
1. Drain coolant from engine. 2. Remove fan coupling with fan. 3. Remove power steering pump
drive belt, generator drive belt and A/C compressor drive belt. 4. Remove water pump.
INSPECTION
- Check body assembly for rust or corrosion.
- Check for rough operation due to excessive end play.
INSTALLATION
1. Use a scraper to remove liquid gasket from water pump.
- Also remove traces of liquid gasket from mating surface of cylinder block.
Brakes - ABS Sensor Precaution Using On Car Brake
Lathe
Wheel Speed Sensor: Technical Service Bulletins Brakes - ABS Sensor Precaution Using On Car
Brake Lathe
Classification: BR99-006
Reference: NTB99-040
Date: June 16, 1999
NISSAN ABS SENSOR CAUTION WHEN USING ON-CAR BRAKE LATHE
APPLIED VEHICLES: All Nissan Vehicles With ABS
SERVICE INFORMATION When using an on-car brake lathe to resurface rotors, be sure to
prevent metal shavings from contacting or collecting on the ABS wheel speed sensor. Metal
shavings that collect on the ABS wheel speed sensor may cause the ABS warning light to come
on, or, may cause intermittent activation of the ABS under normal braking conditions.
SERVICE PROCEDURE Use the following procedure to prevent accumulation of metallic shavings
on the ABS wheel speed sensor magnet when using an on-car brake lathe: 1.
When the vehicle is on the service lift, make sure the ignition key is in the "off" position.
NOTE:
Rotating a wheel, monitored by an ABS wheel speed sensor, while the ignition key is in the "on"
position, may trigger a wheel speed sensor error code. The warning light may remain on even after
the self diagnoses memory is cleared with CONSULT. If this occurs, the warning light will turn off
when driving over 9 mph (20 Km/h) after clearing the self diagnoses memory.
2. Prevent metal shavings from contacting or collecting on the ABS wheel speed sensor magnet
during rotor resurfacing.
3.
Clean and remove all metallic particles from the surface of the rotor and the ABS wheel speed
sensor magnet after rotor resurfacing. The ABS wheel speed sensor can be cleaned with
compressed air.
CAUTION:
Always wear safety goggles when applying compressed air.
NOTE:
If the rotor must be removed for cleaning and/or other purposes after resurfacing is complete, mark
its exact location on the axle prior to removal. Incorrect alignment during reinstallation will cause
the run-out to change, possibly exceeding specifications. This could require the rotor to be turned
again.
Page 930
Description (Part 1 Of 2)
Page 8737
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5722
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3586
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3349
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 44
Passenger Compartment (Part 2 Of 2)
PASSENGER COMPARTMENT
Page 9243
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6871
Part 4 of 4
Page 3451
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3254
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5786
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 465
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4890
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Page 3421
Valve Clearance: Service and Repair
CHECKING
Check valve clearance while engine is warm but not running.
1. Remove rocker cover and all spark plugs 2. Set No. 1 cylinder at TDC on its compression stroke
- Align pointer with TDC mark on crankshaft pulley.
- Check that valve lifters on No 1 cylinder are loose and valve lifters on No 4 are tight. If not, turn
crankshaft one revolution (360°) and align as above.
3. Check only those valves shown in the figure.
4. Using a feeler gauge, measure clearance between valve lifter and camshaft. Record any valve
clearance measurements which are out of
specification. They will be used later to determine the required replacement adjusting shim.
Valve clearance (Hot):
Intake: 0.31 - 0.39 mm (0.012 - 0.015 inch) Exhaust: 0.33 - 0.41 mm (0.013 - 0.016 inch)
5. Turn crankshaft one revolution (360°) and align mark on crankshaft pulley with pointer. 6. Check
those valves shown in the figure.
Page 5133
EGR Backpressure Transducer: Testing and Inspection
COMPONENT INSPECTION EGRC-BPT Valve
1. Plug one of two ports of EGRC-BPT valve. 2. Vacuum from the other port and check leakage
without applying any pressure from under EGR-BPT valve.
Leakage should exist.
Page 8163
Use a backup wrench on the low hose when tightening the joint connection nut.
8. Reinstall the clip to the support bracket (see Figure 2). Tighten the clip mounting bolt to 3.8 - 4.5
N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb).
9. Evacuate and recharge the vehicle's A/C system with 0.60 - 0.70 kg (1.32-1.54 lb) of R134a
refrigerant. Refer to page HA-51 of the 1998 Frontier Service Manual for the A/C evacuation and
recharge procedure.
10. Check the A/C low hose for refrigerant leaks. Refer to pages HA-48 through HA-50 of the 1998
Frontier Service Manual for the A/C leak test procedure. If a leak is found, repair as necessary
before proceeding with step 11.
11. Check A/C performance. Refer to page HA-38 of the 1998 Frontier Service Manual for the A/C
performance check procedure.
A. If the A/C performance is within specification, this service procedure is complete.
B. If the A/C performance is not within specification, repair as necessary.
Low Hose Angle Adjustment
1. Loosen the joint connection between the A/C low hose and the mating A/C low pipe by turning
the joint connection nut 1/4 turn counterclockwise (see Figure 4).
CAUTION:
Do not loosen the joint connection nut more than 1/4 turn as refrigerant can escape and the 0-ring
may become damaged. Also, use a backup wrench on the hose when loosening the joint
connection nut.
2. Loosen (but do not remove) the bolt that secures the clip to the support bracket (see Figure 4).
3. Move the A/C low hose so that it is positioned between 0° and 5° relative to the horizontal plane
(see Figure 5).
4. Retighten the clip mounting bolt to 3.8 - 4.5 N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb)
Page 3378
Idle Speed: Specifications IDLE SPEED
IDLE SPEED
Idle speed M/T 800 +/- 50 RPM
Idle speed A/T ( in N position) 800 +/- 50 RPM
Refer to idle speed adjustments
Page 5907
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6081
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3655
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2463
Ground Distribution
Page 6730
Fluid - Differential: Fluid Type Specifications
Specified type ......................................................................................................................................
................................................................... API GL-5
Specified viscosity at ambient temperature ranges: Below 10°C (50°F) .............................................
................................................................................................................................................... SAE
75W Below 30°C (86°F) ......................................................................................................................
.......................................................................... SAE 80W Below 40°C 104°F) ..................................
.................................................................................................................................. SAE
75W-90/SAE 80W-90 Between 30°C (86°F) and -10°C (14°F) ...........................................................
..................................................................................................... SAE 85W Between 40°C (104°F)
and 0°C (32°F) ....................................................................................................................................
................................. SAE 90 Above 10°C (50°F) ...............................................................................
................................................................................................................... SAE 140
NOTE: 80W-90 is preferable for ambient temperatures below 40°C (104°F)
Page 6994
REAR OIL SEAL
1. Remove rear propeller shaft. 2. Remove rear oil seal.
3. Install rear oil seal.
- Before installing apply multi-purpose grease to seal lip.
4. Install rear propeller shaft.
Page 7898
Axle Nut: Service and Repair Specifications
TIGHTENING SPECIFICATIONS
Auto Lock Knob ...................................................................................................................................
.................................. 25 - 34 Nm (18 - 25 ft. lbs.) Lock Washer Screw
.................................................................................................................................................... 1.2 1.8 Nm (10.4 - 15.7 inch lbs.) Manual Lock Knob ...............................................................................
................................................................................. 25 - 34 Nm (18 - 25 ft. lbs.)
Page 7185
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Emissions System - MIL ON/DTC's Stored (EVAP)
Evaporative Emissions Hose: All Technical Service Bulletins Emissions System - MIL ON/DTC's
Stored (EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Page 4377
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1841
Page 786
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3110
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6417
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3362
Overall inspection sequence
Page 2855
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2688
Intake Air Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2186
Compression Check: Testing and Inspection
MEASUREMENT OF COMPRESSION PRESSURE
1. Warm up engine. 2. Turn ignition switch off. 3. Release fuel pressure. 4. Remove all spark plugs
5. Disconnect distributor center cable
6. Attach a compression tester to No 1 cylinder 7. Depress accelerator pedal fully to keep throttle
valve wide open 8. Crank engine and record highest gauge indication. 9. Repeat the measurement
on each cylinder as shown above.
- Always use a fully-charged battery to obtain specified engine speed.
Compression pressure: kPa (kg/cm2, psi) /rpm
Standard: 1,226 (12.5, 178) /300 Minimum: 1,030 (10.5, 149) /300 Difference limit between
cylinders: 98 (1.0,14) /300
10. If compression in one or more cylinders is low:
a. Pour a small amount of engine oil into cylinders through spark plug holes. b. Retest
compression.
- If adding oil improves cylinder compression, piston rings may be worn or damaged. If so, replace
piston rings after checking piston.
- If pressure stays low, a valve may be sticking or seating improperly. Inspect and repair valve and
valve seat. If valve or valve seat is damaged excessively, replace it.
- If compression stays low in two cylinders that are next to each other: a. The cylinder head gasket
may be leaking, or b. Both cylinders may have valve component damage. Inspect and repair as
necessary.
Engine - Drive Belt Noise Diagnosis
Drive Belt: All Technical Service Bulletins Engine - Drive Belt Noise Diagnosis
Classification: EM09-013
Reference: NTB10-002
Date: January 12, 2010
DRIVE BELT SYSTEM NOISE DIAGNOSIS
APPLIED VEHICLES All Nissan
IF YOU CONFIRM
There is noise coming from the drive belt(s), or drive belt pulley(s),
ACTION
Use the flow chart in this bulletin to help diagnose and identify the source / cause of the noise.
CLAIMS INFORMATION
Refer to the current Nissan Warranty Flat Rate Manual and use the indicated claims coding for any
repairs performed.
Page 3935
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3778
Ground Distribution
Page 729
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2381
34. CAN diagnosis will run again. When it reaches 51% and the icons light, click on the
"Duplication Test" icon.
35. When the screen in Figure 18 appears, click on All Erase.
36. Click on Yes (see Figure 18).
37. Use the scroll bar to scroll down the page and make sure all DTCs are erased.
^ For any DTCs that do not erase: diagnose, perform repairs, and erase DTCs.
^ Refer to the Service Manual as needed.
Reprogramming is finished. Continue with the Procedure below.
38. Close C-III, then turn the ignition OFF.
39. Make sure the throttle is released and your foot is NOT pressing either the brake or clutch
(M/T) pedal;
Page 932
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4179
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2706
Optional Splice
Example Diagrams
Page 2921
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3102
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6162
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Air Bag - Harness Replacement, Not Repair
Air Bag Harness: All Technical Service Bulletins Air Bag - Harness Replacement, Not Repair
Classification: RS97-002
Reference: NTB97-017
AIR BAG HARNESS REPLACEMENT
APPLIED VEHICLE(S) ALL
SERVICE INFORMATION
The next update to the Warranty Flat Rate Manual will include the following correction to the RQ
section regarding the air bag harness:
WAS:Repair the Air Bag Harness RQ30AA
IS: Replace the Air Bag Harness RQ30AA
DO NOT ATTEMPT TO REPAIR, SPLICE OR MODIFY ANY AIR BAG HARNESS UNDER ANY
CIRCUMSTANCES.
Refer to the RS section of the appropriate service manual for SRS diagnostic/inspection
information.
Page 5228
EGR Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 492
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4606
Vehicle Speed Sensor: Electrical Diagrams
EC-VSS-01 Vehicle Speed Sensor (VSS) (DTC: P0500)
Circuit Diagrams
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor Circuit (VSS) Connectors
Page 8741
Mirrors: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4548
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1689
Page 7562
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
Page 500
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1350
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
Page 4589
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7081
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 394
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1823
Axle Nut: Service and Repair Specifications
TIGHTENING SPECIFICATIONS
Auto Lock Knob ...................................................................................................................................
.................................. 25 - 34 Nm (18 - 25 ft. lbs.) Lock Washer Screw
.................................................................................................................................................... 1.2 1.8 Nm (10.4 - 15.7 inch lbs.) Manual Lock Knob ...............................................................................
................................................................................. 25 - 34 Nm (18 - 25 ft. lbs.)
Front
Wheel Speed Sensor: Service and Repair Front
REPLACEMENT
Refer to the illustration when servicing, noting the following:
CAUTION: Be careful not to damage sensor edge and sensor rotor teeth. When removing the front
wheel hub or rear axle shaft assembly, disconnect the ABS wheel sensor from the assembly and
move it away.
Page 8483
Safing Sensor: Service and Repair
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the Safing Sensor requires replacement of the Diagnosis Sensor Unit. Refer to
Diagnosis Sensor Unit / Service and Repair.
Page 3505
Description (Part 1 Of 2)
Page 5671
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3993
Ground Distribution
Page 7824
2. Remove wheel hub and rotor disc.
Refer to Wheel Hub.
3. Separate drive shaft from knuckle spindle by slightly tapping drive shaft end. (4WD)
4. Separate tie-rod from knuckle spindle with Tool.
Install stud nut conversely on stud bolt so as not to damage stud bolt.
5. Separate knuckle spindle from ball joints.
a. Loosen (do not remove) upper and lower ball joint tightening nuts.
b. Separate knuckle spindle from upper and lower ball joint studs with tool.
During above operation, never remove ball joint nuts which are loosened in step (a) above.
Tool:
2WD
ST29020001 (J24319-01)
4WD
HT72520000 (J125730-B), or equivalent.
Page 737
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2978
Page 7531
5. Make sure the targets are mounted correctly.
^ Mount the top claws first.
^ Claws must be flush against the wheel as shown in Figure 13.
^ Target must be flush against the center support as shown in Figure 14.
^ Make sure the targets are positioned with the arrow UP or level.
IMPORTANT:
Page 2795
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the rear healed oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 3802
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
MIL ON - DTC P0420 Set/Exhaust Rattle
Catalytic Converter: Customer Interest MIL ON - DTC P0420 Set/Exhaust Rattle
Classification: EC00-017
Reference: NTB00-058
Date: July 12, 2000
1998 FRONTIER; MIL "ON" WITH DTC P0420 STORED AND/OR EXHAUST RATTLE
APPLIED VEHICLE: 1998
Frontier (D22)
Federal Emissions Specification ONLY
APPLIED VIN: up to 1N6DD26Y9WC347717
APPLIED DATE: up to 2/13/98
APPLIED ENGINE: KA24DE
SERVICE INFORMATION
If an Applied Vehicle has a MIL "ON" with DTC P0420 (Three-Way Catalyst Function) stored in the
ECM and/or exhaust rattle noise, the vehicle may have poor three-way catalyst function. This is
usually the result of misfire. In severe cases, the catalyst structure may collapse resulting in an
exhaust rattle.
When proper diagnosis confirms that the three-way catalyst in an Applied Vehicle requires
replacement, regardless of the root cause, also install platinum tip spark plugs specified in the
Parts Information section. Platinum tip plugs provide enhanced misfire resistance under extreme
driving conditions.
Use the following service procedure to resolve the incident, should it occur.
NOTE:
If the three-way catalyst's honeycomb internal structure has collapsed, the debris will typically be
trapped in the exhaust piping and muffler, causing an exhaust rattle.
SERVICE PROCEDURE
1. Perform Self-Diagnosis using CONSULT-II. Print and attach the Freeze Frame data to the repair
order.
2. If there is a DTC stored in addition to P0420, diagnose and repair the additional DTC(s) first,
using the appropriate Service Manual procedure(s).
3. After diagnosing and repairing the vehicle for the non-P0420 DTC, or if P0420 is the only DTC,
use the appropriate Service Manual to determine the incident cause, and repair it.
NOTE:
Always check the secondary ignition circuit. Check distributor cap for moisture, tracking or other
indicators of insulator degradation that may cause a misfire under load.
4. If diagnosis has determined that replacement of the three-way catalyst is also necessary,
replace it and install four new platinum tip spark plugs from the Parts Information section.
NOTE:
If the catalyst is being replaced, inspect its internal honeycomb structure by looking into each end
of the converter. If the structure has collapsed or deteriorated severely, check the exhaust piping
and muffler for debris. Remove all debris from the exhaust system. Replace the muffler as needed.
5. Make a note in the vehicle maintenance logs and notify the customer that platinum tip spark
plugs have been installed, and that this is an upgrade from that listed in the owners manual. The
maintenance interval for platinum tip spark plugs is 60,000 miles and Nissan recommends that the
Page 9287
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Diagram Information and Instructions
Torque Converter Clutch Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 898
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 985
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Adjustments
Air/Fuel Mixture: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 6193
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3631
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Description and Operation
EGR Backpressure Transducer: Description and Operation
SYSTEM DESCRIPTION
The EGRC-BPT valve monitors exhaust pressure to activate the diaphragm, controlling throttle
body vacuum applied to the EGR valve. In other words, recirculated exhaust gas is controlled in
response to positioning of the EGR valve or to engine operation.
Page 9540
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2863
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Locations
Page 9363
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3584
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3654
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1170
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7075
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2085
NOTE:
Make sure the flat side of the distributor drive shaft is facing the engine (see Figure 6). Failure to do
so will result in the distributor being out of time.
8. Install the following parts:
a. Crankshaft pulley.
b. A/C compressor and idler pulley bracket.
c. Radiator shroud and cooling fan with coupling.
d. A/C compressor, alternator and power steering pump drive belts.
e. Air duct.
Installation of Upper Timing Chain
1. Install the lower timing chain (refer to "Installation of Lower Timing Chain" in this bulletin).
2. Install upper timing chain and sprockets, using the painted reference marks made during
removal.
3. Install chain tensioner. Remove the pin holding the tensioner piston in the bore of the tensioner.
4. Install camshaft sprocket cover:
a. Use a scraper to remove all traces of liquid gasket from the mating surfaces of the engine block
and camshaft sprocket cover.
b. Apply a continuous bead of RTV sealant to the cover as shown in Figure 7.
NOTE:
Page 8035
Wheel Hub (Locking): Service and Repair Auto Lock Free Running Hub
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 8329
Diagnosis Sensor Unit: Service and Repair
Description
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact.
Removal Of Diagnosis Sensor Unit
1. Disconnect driver and passenger air bag module connectors. 2. Remove console box. 3.
Disconnect air bag diagnosis sensor unit connector. 4. Remove bolts from air bag diagnosis sensor
unit. Use TAMPER RESISTANT TORX (Size T5O) to remove special bolts. 5. Remove the air bag
diagnosis sensor unit.
To install, reverse the removal procedure.
After replacement, perform self-diagnosis for SRS. Refer to "SRS Operation Check".
CAUTION: Air bag diagnosis sensor unit must always be installed with forward mark "<=" pointing
towards the front of the vehicle for proper operation. Also check air bag diagnosis sensor unit for
cracks deformities and rust before installation and replace as required.
Wheels/Tires - Tire Mounting Information
Wheels: Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Page 3255
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 175
Main Harness (Part 2 Of 2)
Fuel Pump Relay Connector # M46
Page 3417
Compression Check: Testing and Inspection
MEASUREMENT OF COMPRESSION PRESSURE
1. Warm up engine. 2. Turn ignition switch off. 3. Release fuel pressure. 4. Remove all spark plugs
5. Disconnect distributor center cable
6. Attach a compression tester to No 1 cylinder 7. Depress accelerator pedal fully to keep throttle
valve wide open 8. Crank engine and record highest gauge indication. 9. Repeat the measurement
on each cylinder as shown above.
- Always use a fully-charged battery to obtain specified engine speed.
Compression pressure: kPa (kg/cm2, psi) /rpm
Standard: 1,226 (12.5, 178) /300 Minimum: 1,030 (10.5, 149) /300 Difference limit between
cylinders: 98 (1.0,14) /300
10. If compression in one or more cylinders is low:
a. Pour a small amount of engine oil into cylinders through spark plug holes. b. Retest
compression.
- If adding oil improves cylinder compression, piston rings may be worn or damaged. If so, replace
piston rings after checking piston.
- If pressure stays low, a valve may be sticking or seating improperly. Inspect and repair valve and
valve seat. If valve or valve seat is damaged excessively, replace it.
- If compression stays low in two cylinders that are next to each other: a. The cylinder head gasket
may be leaking, or b. Both cylinders may have valve component damage. Inspect and repair as
necessary.
Page 792
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6491
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2641
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Specifications
Page 9136
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9458
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4642
BARO / MAP Sensor Switching Valve: Description and Operation
COMPONENT DESCRIPTION
The MAP/BARO switch solenoid valve switches its air flow passage according to the voltage signal
sent from the ECM. When voltage is supplied from the ECM, the MAP/BARO switch solenoid turns
"ON". Then, the absolute pressure sensor can monitor the ambient barometric pressure. When
voltage is not supplied from the ECM, the MAP/BARO switch solenoid valve turns "OFF". Then, the
sensor monitors intake manifold pressure.
Page 1853
4. Apply multi-purpose grease to each bearing cone.
5. Pack grease seal lip with multi-purpose grease, then install it into wheel hub with suitable drift.
Page 3619
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Specifications
Firing Order: Specifications Firing order
Firing order
Firing order 1-3-4-2
Page 6315
Page 626
NOTES:
^ Rust penetrant is considered a shop supply.
^ Nissan Rust Penetrant can be ordered through the Nissan Direct Ship Chemical Care Product
Program, Website order via link on dealer portal.
^ WD-40 is available from various local sources.
Removal Tool
^ When removing a seized exhaust sensor with a specialty socket (which contains a slit to
accommodate the wiring harness), it may spread open and
strip the sensor.
^ Before this occurs, it is recommended to cut the wiring harness from the sensor and use a box
end wrench or 6-point deep well socket.
1. Clamp the exhaust manifold/catalyst/front tube in a vice.
2. Spray the sensor with the rust penetrant for 2 to 3 seconds.
^ It is important that the spray is directed at the base of the sensor to ensure it penetrates into the
threads.
Page 2522
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 9460
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Diagram Information and Instructions
EGR Control Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7675
2. Remove wheel hub and rotor disc.
Refer to Wheel Hub.
3. Separate drive shaft from knuckle spindle by slightly tapping drive shaft end. (4WD)
4. Separate tie-rod from knuckle spindle with Tool.
Install stud nut conversely on stud bolt so as not to damage stud bolt.
5. Separate knuckle spindle from ball joints.
a. Loosen (do not remove) upper and lower ball joint tightening nuts.
b. Separate knuckle spindle from upper and lower ball joint studs with tool.
During above operation, never remove ball joint nuts which are loosened in step (a) above.
Tool:
2WD
ST29020001 (J24319-01)
4WD
HT72520000 (J125730-B), or equivalent.
Page 4278
Optional Splice
Example Diagrams
Component Locations
Page 3952
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Page 1724
Engine Compartment
Engine Compartment
Page 3821
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1943
Page 2670
Optional Splice
Example Diagrams
Page 3030
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4366
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8164
5. Retighten the joint connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Use a backup wrench on the low hose when tightening the joint connection nut.
Low Hose Bracket Installation
1. Separate the two halves of the bracket by removing the screw.
2. Install the two halves of the bracket on the compressor end of the A/C low hose at the tube bend
closest to the compressor flange (see Figure 6).
NOTE:
When installing the bracket, make sure the bracket half with the weld nut on the side points away
from the engine.
3. Install and tighten the bracket screw to 3.8 - 4.5 N.m (0.4 - 0.5 kg-m, 33 - 40 in-lb).
Specifications
Impact Sensor: Specifications Crash Zone Sensor
Crash Zone Sensor
Special Bolt(s) 15 - 25 Nm
Page 4112
Ground Distribution
Page 5859
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Mechanical Specifications
Wheel Bearing: Mechanical Specifications
Front
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Rear
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 7986
Wheel Bearing: Fluid Type Specifications
Use a Quality, Multi-purpose wheel bearing grease.
Page 2842
Optional Splice
Example Diagrams
Page 765
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 4488
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Diagram Information and Instructions
Ignition Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3711
34. CAN diagnosis will run again. When it reaches 51% and the icons light, click on the
"Duplication Test" icon.
35. When the screen in Figure 18 appears, click on All Erase.
36. Click on Yes (see Figure 18).
37. Use the scroll bar to scroll down the page and make sure all DTCs are erased.
^ For any DTCs that do not erase: diagnose, perform repairs, and erase DTCs.
^ Refer to the Service Manual as needed.
Reprogramming is finished. Continue with the Procedure below.
38. Close C-III, then turn the ignition OFF.
39. Make sure the throttle is released and your foot is NOT pressing either the brake or clutch
(M/T) pedal;
Page 6562
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6293
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7371
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2935
Ground Distribution
Page 3524
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4698
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2410
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3748
Engine Control Module: Testing and Inspection
ECM HARNESS CONNECTOR TERMINAL LAYOUT
Page 4968
Type Of Standardized Relays (Part 2 Of 2)
Page 7917
TRANSFER CASE DIAGNOSTIC TABLE
Page 5124
Leak Detection Valve: Connector Views
Vacuum Cut Valve Bypass Valve (DTC: P1490)
Vacuum Cut Valve Bypass Valve (Circuit) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 416
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1082
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5078
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 8750
Mirrors: Connector Views
Mirror
Power Door Mirror Circuit Connectors
Page 12
Engine Compartment
Engine Compartment
Page 7393
Component Parts And Harness Connector Location
Page 3515
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9426
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3379
Idle Speed: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 1400
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
Page 4323
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1084
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5464
Service Manual for Refueling Control Valve inspection procedures.
8. If the DTC confirmation is still NG after step 7, or the vehicle is not equipped with ORVR, do the
following:
a. Disconnect two (2) lines from the Vacuum Cut Valve. One that goes to the fuel tank and one that
goes to the EVAP Canister (see figure 1).
b. Use a hand vacuum pump to check each of the two (2) disconnected hoses for free flow. Make
sure they are clear into the fuel tank (vent line) and into the EVAP Canister (see figure 2).
NOTE:
^ Figure 2 includes ORVR system. Refer to the appropriate service manual to determine if your
vehicle has ORVR or not.
^ The lines between the Vacuum Cut Valve and Fuel Tank, and between the Vacuum Cut Valve
and EVAP Canister may go through a metal
line. Make sure the lines are clear between the Vacuum Cut Valve and Fuel Tank, and between the
Vacuum Cut Valve and EVAP Canister, including any metal lines.
c. If any blockage is found, determine the cause and repair as necessary. Blockage in either of
these lines will cause a DTC.
9. If all of the above checks do not locate the source of the incident, refer to the appropriate Service
Manual for further DTC P1491 diagnosis.
Page 208
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5663
Ground Distribution
Page 6140
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3715
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 445
Optional Splice
Example Diagrams
Page 4808
Control Units/Module
F29 Control Units/Module
Diagram Information and Instructions
Courtesy Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6580
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Specifications
Acceleration/Deceleration Sensor: Specifications
TIGHTENING SPECIFICATIONS
G Sensor .............................................................................................................................................
........................ 4.4 - 5.8 Nm (39.1 - 51.2 inch lbs.)
Page 5823
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5876
Ignition Ballast Resistor: Electrical Diagrams
WIRING DIAGRAM
Page 1166
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 782
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3039
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Wheels/Tires - Tire Mounting Information
Tires: All Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Diagram Information and Instructions
Spot Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 164
ECM INSPECTION TABLE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 5356
Ground Distribution
Service and Repair
Evaporator Case: Service and Repair
REMOVAL
1. Evacuate the A/C system. 2. Disconnect the two refrigerant lines from the engine compartment.
- Cap the A/C lines to prevent moisture from entering the system.
3. Remove the glove box and mating trim. 4. Disconnect the thermal amp. connector. 5. Remove
the cooling unit. 6. Separate the cooling unit case, and remove the evaporator.
INSTALLATION Installation is basically the reverse order of removal. Recharge the A/C system.
Page 3151
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5710
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 9382
EL-DTRL-03 Headlamp Wiring Diagram (For Canada) (Part 3 Of 3)
Headlamp (For Canada) (Part 1 Of 3)
Headlamp (For Canada) (Part 2 Of 3)
Page 3475
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8418
Seat Belt: Specifications
Front Seat Belts Buckle 43 - 55 Nm
Anchor Bolt(s) 43 - 55 Nm
Adjuster Bolt(s) 43 - 55 Nm
Retractor Bolt(s) / Screw(s) 43 - 55 Nm
Rear Seat Belt Buckle 43 - 55 Nm
Anchor Bolt(s) 43 - 55 Nm
Page 9148
Type Of Standardized Relays (Part 2 Of 2)
Page 2857
Ground Distribution
Page 4942
Optional Splice
Example Diagrams
Page 5257
Type Of Standardized Relays (Part 2 Of 2)
Page 8468
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Lock
Cylinder
Passenger Air Bag Deactivation Switch Lock Cylinder
REMOVAL
Passenger Air Bag Module Deactivation Switch Lock Cylinder
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector 3. Remove
instrument stay cover lower center. 4. Remove four screws and housing from instrument stay cover
lower center. 5. Remove clip from bottom of housing. 6. Remove passenger air bag deactivation
switch lock cylinder from front of housing.
INSTALLATION
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 3892
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 854
Optional Splice
Example Diagrams
Page 2192
7. Determine replacement adjusting shim size as follows.
a. Using a micrometer determine thickness of removed shim. b. Calculate thickness of new
adjusting shim so valve clearance comes within specified values.
R = Thickness of removed shim N = Thickness of new shim M = Measured valve clearance
Intake & Exhaust: N = R + [M - 0.37 mm (0.0146 inch)]
Shims are available in thicknesses from 1.96 mm (0.0772 inch) to 2.68 mm (0.1055 in), in steps of
0.02 mm (0.0008 inch).
c. Select new shim with thickness as close as possible to calculated value.
8. Install new shim using a suitable tool.
- Install with the surface on which the thickness is stamped facing down.
9. Place Tool (A) as mentioned in steps 2 and 3.
10. Remove Tool (B). 11. Remove Tool (A). 12. Recheck valve clearance.
Page 1862
Wheel Fastener: Specifications Wheel Fastener Tightening Sequence
Lug Nut Torque Patterns
IMPORTANT
Check all parts, including rims, lug studs, lug nuts, and mating surfaces of hubs and tire rims for
rust, damage, or dirt. Clean mating surfaces with a wire brush to remove any foreign material.
Replace any damaged parts as needed. Careless installation of tire/rim assemblies in a vehicle is a
major cause of tire installation problems. Proper installation, including fastener torque, is essential
to economical, safe and trouble free service. Use only the proper sizes and types of fasteners for
safe and proper service. Tighten the fasteners a quarter turn at a time using the tightening
sequence diagram as a guide. This is very important to prevent misalignment of the wheel.
Continue tightening the fasteners in sequence until the fasteners are tightened to the proper torque
(See WHEEL FASTENER TORQUE).
CAUTION: Improper torque or tightening sequence can cause distortion, fatigue cracks, or
alignment problems. After driving the vehicle for a short distance, recheck the wheel fastener
torque. Parts will usually seat naturally, reducing the torque on the fasteners. Retorque all
fasteners to the proper torque.
Page 7042
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Locations
Shift Interlock Solenoid: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 5976
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5819
Ground Distribution
Page 4730
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 907
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7357
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 733
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 292
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5692
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 291
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3592
Ground Distribution
Page 5559
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4241
Optional Splice
Example Diagrams
Page 3071
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6500
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Rear Wheel Bearing Nut Torque
Axle Nut: Specifications Rear Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 1550
Page 102
Diagram Information and Instructions
Ignition Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 968
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4659
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3519
Ground Distribution
Page 5346
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4305
Intake Air Temperature Sensor: Connector Views
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2226
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1264
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5073
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1696
Comments regarding leak detector use:
^ Existing R-12 leak detectors currently will not detect R-134a.
^ Many R-134a leak detectors will detect R-12; check with the equipment manufacturer.
^ Always refer to and follow the equipment manufacturers recommendations when operating leak
detectors.
Comments regarding weight scale use:
^ If the scale allows electronic control of the flow of refrigerant through the scale, (i.e. internal
solenoid valves) be certain that the hose fitting size is 1/2"-16 ACME, and that no refrigerant other
than R-134a (along with only specified lubricant) have been used with the scale.
Charging Cylinder
^ The use of a charging cylinder is not recommended because:
^ The refrigerant may be vented into the air from the top valve of cylinder when filling the cylinder
with refrigerant.
^ The accuracy of a charging cylinder is generally less than that of an electronic scale or of quality
recycle/recharge equipment.
Service Procedures
^ The service procedures for R-134a A/C systems are basically the same as for R-12 A/C systems,
however, the following should always be kept in mind:
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose, and
throat. Use only approved recovery/recycling equipment to discharge R-134a systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service work.
^ R-134a and R-12 A/C components are not interchangeable. Cleaning of used (in service)
components for use with another type of refrigerant and/or lubricant is not an acceptable practice,
and may result in A/C system failure.
^ Always use the proper PAG oil when servicing an R-134a A/C system. The Nissan part number
for the appropriate PAG compressor oil can be found on the A/C specification label in the engine
compartment, and also in the Factory Service Manual, and on the label on the compressor. These
oils are only available from your Nissan Parts Department.
^ When leak checking an R-134a system, be certain that you are using a detector which will detect
R-134a.
^ As mentioned previously in this bulletin, the R-134a PAG lubricants absorb moisture; PAG oil
containers and A/C components containing PAG oil must remain tightly sealed until ready for use.
^ Unlike R-12 systems, R-134a systems do not exhibit a "clear sight glass", even when properly
charged. For this reason, the R-134a A/C systems have no sight glass.
^ With R-134a systems it is important to properly control the amount of refrigerant charged into the
system during system charging. A charging machine or weight scale must always be used during
charging for proper charge determination.
^ Questions regarding R-12 or R-134a should be addressed to your Regional Service Staff or the
FIXS Hotline.
Page 6658
Disassembly
1. Remove valves at parallel pins. 2. Remove valves at retainer plates.
Valve Springs Inspection
Page 5002
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 4508
Ground Distribution
Page 3345
Type Of Standardized Relays (Part 2 Of 2)
Page 7188
Brake Shoe: Specifications Thickness Specifications
Thickness Specifications
Minimum Lining Thickness 0.059 in
On Vehicle Service
Valve Body: Service and Repair On Vehicle Service
REMOVAL
1. Drain ATF from drain plug. 2. Remove oil pan and gasket. 3. Remove oil strainer. 4. Disconnect
harness connector. 5. Remove control valve assembly by removing fixing bolts.
Bolt Length And Location Be careful not to drop manual valve out of valve body. 6. Remove
solenoids and valves from valve body if necessary. 7. Remove terminal cord assembly if
necessary.
8. Remove accumulators (A), (B), (C) and (D) by applying compressed air if necessary.
Hold each piston with a rag.
9. Reinstall any part removed.
- Always use new sealing parts.
- After installing control valve assembly, make sure that selector lever can be moved to all
positions.
Page 7654
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1304
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5320
Idle Speed: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Instruments - Electrochromic Mirror Diagnostics
Mirrors: Technical Service Bulletins Instruments - Electrochromic Mirror Diagnostics
Classification: EL04-036
Reference: NTB04-133
Date: November 9, 2004
NISSAN; AUTO-DIMMING ELECTROCHROMIC (EC) MIRROR* DIAGNOSIS
APPLIED VEHICLE(S): 2000-2005 Sentra (B15), 1997-2005 Altima (U13 & L30), 2000-2004
Maxima (A33 & A34), 2000-2005 Quest (V41 & V42), 1998-2004 Frontier (D22), 2000-2004 Xterra
(WD22)
IF YOU CONFIRM The Auto Dimming Electrochromic (EC) Mirror* needs service.
ACTION Use the Guide for assistance.
Guide exclusively for the Auto Dimming Electrochromic (EC) Mirror* With:
^ Electronic Compass Display or
^ Electronic Compass & Temperature Display
*Manufactured by the Donnelly Corporation, Holland, MI. The name Donnelly is embossed in the
back of the mirror case along with patent and other information.
Page 9563
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Diagrams
Page 2082
9. Wipe off the links of the timing chain next to the timing marks on the sprockets. Put paint marks
on the timing chain, matching them with the timing marks on the cam sprockets and idler sprocket
(see Figure 1).
10. Remove cam sprocket bolts, cam sprockets and upper timing chain.
11. Support lower timing chain by using a suitable tool as shown in Figure 2 to avoid chain
tensioner spring from coming out.
NOTE:
This step is only to be applied when the lower cover is not being removed.
12. Remove the idler sprocket.
Removal of Lower Timing Chain
1. Drain coolant by removing the cylinder block drain plug and opening the radiator drain cock
(Refer to MA section of the Service Manual).
2. Drain engine oil.
3. Remove the following parts:
^ Alternator & A/C compressor drive belts.
^ Cooling fan with coupling.
^ Radiator shroud.
4. Remove the A/C compressor and position it to the side. Remove the idler pulley and bracket as
well.
5. Set # 1 piston at TDC on its compression stroke.
6. Remove the distributor.
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 499
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4516
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1665
Comments regarding condensers:
^ The parallel flow condenser can be identified by the refrigerant end tanks, and smaller, more
closely spaced center section tubes.
Page 3172
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8177
Refrigerant: Technical Service Bulletins A/C - R134a Charge Amount/Lubricant Chart
Classification: HA95-013
Reference: NTB95-068
Date: July 5, 1995
R134a CHARGE AMOUNTS/PAG LUBRICANT CHART
APPLIED VEHICLE(S): All equipped with R134a A/C systems
SERVICE INFORMATION For reference, the chart in this bulletin has been prepared. It contains
information by vehicle model and year regarding A/C systems conversion dates to R-134a type
systems. Please note, the dates shown indicate the conversion date at the manufacturing level, not
on dealer installed units.
Page 6016
Ignition Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4464
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5824
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 680
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the rear healed oxygen sensor heater corresponding to the
engine speed.
OPERATION
Instruments - Fuel Gauge Inaccurate
Fuel Gauge: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 6026
Ignition Control Module: Description and Operation
COMPONENT DESCRIPTION Ignition Coil & Power Transistor
The ignition signal from the ECM is sent to the power transistor. The power transistor switches on
and off the ignition coil primary circuit. As the primary circuit is turned on and off, the proper high
voltage is induced in the coil secondary circuit.
Page 730
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7436
Multiple Junction Connector: Service and Repair
SUPER MULTIPLE JUNCTION (SMJ)
Super Multiple Junction (SMJ)-Installation
Super Multiple Junction (SMJ)-Installation
To install SMJ, tighten bolts until orange "fulltight" mark appears and then retighten to specified
torque as required.
3 - 5 N.m (0.3 - 0.5 kg-m, 26 - 43 in lb)
CAUTION: Do not overtighten bolts, otherwise, they may be damaged.
Page 4470
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5562
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5640
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Battery Safety Warning
Battery: Service Precautions Battery Safety Warning
WARNING:
- Do not allow battery fluid to come in contact with skin eyes, fabrics, or painted surfaces. After
touching a battery, do not touch or rub your eyes until you have thoroughly washed your hands. If
acid contacts eyes, skin or clothing, immediately flush with water for 15 minutes and seek medical
attention.
- Do not "quick charge" a fully discharged battery.
- Keep the battery away from open flame while it is being charged.
- When connecting the charger, connect the leads first, then turn on the charger. Do not turn on the
charger first, as this may cause a spark.
- If battery electrolyte temperature rises above 60 °C (140 °F) stop charging. Always charge battery
at a temperature below 60 °C (140 °F).
Page 3187
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8978
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9393
Headlamp: Testing and Inspection Trouble Diagnosis (For Canada))
Daytime Light Control Unit Inspection Table (Part 1 Of 2)
Page 933
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3896
Type Of Standardized Relays (Part 2 Of 2)
Page 3970
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor Heater
COMPONENT INSPECTION Front Heated Oxygen Sensor Heater
Check resistance between terminals (3) and (1).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
Check continuity between terminals (2) and (1), (3) and (2). Continuity should not exist. If NG,
replace the front heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Page 2972
TRANSFER CASE DIAGNOSTIC TABLE
Page 1342
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 5157
EGR Control Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4631
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Diagram Information and Instructions
Torque Converter Clutch Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8638
Engine Compartment
Engine Compartment
Steering/Suspension - Pull Or Drift Diagnostics
Alignment: All Technical Service Bulletins Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Page 7468
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4536
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2500
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2903
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5529
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4532
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8216
Additionally the PAG lubricant type, part numbers and system recharge amounts are listed for each
model.
Specifications
Vacuum Brake Booster: Specifications
DIMENSIONS
Diaphragm Diameter:
Primary ................................................................................................................................................
..................................... 230 mm (9.06 inches) Secondary ..................................................................
............................................................................................................... 205 mm (8.07 inches)
Output Rod Length
.................................................................................................................................... 10.275 10.525 mm (0.4045 - 0.4144 inches)
Page 8906
Brake Switch (Cruise Control): Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2553
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 656
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4677
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 6711
^ before removing the extension adapter hose from the cooler Outlet hose,
^ turn the can over and spray only propellant for a few seconds to avoid fluid spilling back out of the
cooler hose.
5. Tie a common white, basket-type coffee filter to the end of the cooler Inlet hose (see Figure 10).
6. Insert the tip of an air gun into the end of the cooler Outlet hose (see Figure 11).
7. Wrap a shop rag around the air gun tip and end of the cooler Outlet hose (see Figure 11).
8. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the cooler Outlet hose to
force any remaining cleaner or fluid into the coffee filter (see Figure 11).
9. Remove the coffee filter from the end of the cooler Inlet hose.
10. Proceed with Inspection Procedure.
Inspection Procedure
Page 6422
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 1050
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3863
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Testing and Inspection
Fuel/Water Separator: Testing and Inspection
Water Separator
1. Check visually for insect nests in the water separator air inlet. 2. Check visually for cracks or
flaws in the appearance. 3. Check visually for cracks or flaws in the hose. 4. Check that (A) and (C)
are not clogged by blowing air into (B) with (A), and then (C) plugged. 5. In case of NG in items 2 4, replace the parts.
- Do not disassemble water separator.
Page 3972
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor Heater
COMPONENT INSPECTION
Rear heated oxygen sensor heater Check the following.
1. Check resistance between terminals (2) and (3).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
2. Check continuity.
If NG, replace the rear heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Page 6780
5. Detach spider assembly with press.
6. Draw out boot.
Cover drive shaft serration with tape to prevent damaging the boot.
Wheel Side (ZF100)
CAUTION: The joint on the wheel side cannot be disassembled. Before separating joint assembly, put matching marks on drive shaft and joint assembly.
- Separate joint assembly with suitable tool.
Be careful not to damage threads on drive shaft. Remove boot bands.
INSPECTION
Thoroughly clean all parts in cleaning solvent, and dry with compressed air. Check parts for
evidence of deformation and other damage.
Drive Shaft
- Replace drive shaft if it is twisted or cracked.
Boot
- Check boot for fatigue, cracks and wear. Replace boot with new boot bands.
Joint Assembly (Final Drive Side)
- Replace any parts of double offset joint which show signs of scorching, rust, wear or excessive
play.
- Check serration for deformation. Replace if necessary.
- Check slide joint housing for any damage. Replace if necessary.
Joint Assembly (Wheel Side)
- Replace joint assembly if it is deformed or damaged.
ASSEMBLY
Front Heated Oxygen Sensor
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor
COMPONENT INSPECTION Front heated oxygen sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "MANU TRIG" and "HI
SPEED" in "DATA MONITOR" mode with CONSULT, and select "FR O2 SENSOR" and "FR O2
MNTR". (3) Hold engine speed at 2,000 rpm under no load during the following steps. (4) Touch
"RECORD" on CONSULT screen. (5) Check the following.
- "FR O2 MNTR" in "DATA MONITOR" mode changes from "RICH" to "LEAN" to "RICH" 5 times in
10 seconds. 5 times (cycles) are counted as shown below: cycle | 1 | 2 | 3 | 4 | 5 | FR O2 MNTR
R-L-R-L-R-L-R-L-R-L-R R = "FR O2 MNTR", "RICH" L = "FR O2 MNTR", "LEAN"
- "FR O2 SENSOR" voltage goes above 0.6V at least once.
- "FR O2 SENSOR" voltage goes below 0.35V at least once.
- "FR O2 SENSOR" voltage never exceeds 1.0V.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (50) (sensor signal) and (32) (ECM ground). (3) Check the following with engine
speed held at 2,000 rpm constant under no load.
- Malfunction indicator lamp goes on more than 5 times within 10 seconds in Diagnostic Test Mode
II (FRONT HEATED OXYGEN SENSOR MONITOR).
- The maximum voltage is over 0.6V at least one time.
- The minimum voltage is below 0.35V at least one time.
- The voltage never exceeds 1.0V.
Page 2488
Optional Splice
Example Diagrams
Page 9109
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 4163
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 3216
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4116
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4292
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2926
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1672
which will result in contamination, and damage to recovery/recycle equipment.
^ Use equipment designed to meet Society of Automotive engineers (SAE) standards, which
specify R-134a service equipment fitting size (1/2" - 16 ACME), and service hose identification
(black stripe on hose).
^ Adapters to convert from one size fitting to the other must never be used; refrigerant/lubricant
contamination will occur and system failure may result.
^ The use of incorrect equipment will result in refrigerant and/or lubricant contamination, which may
cause A/C system or equipment failure.
^ ACR(4) machine will perform all required service functions (recovery, evacuation, recycle,
recharge).
^ High volume A/C service facilities may benefit from "component" A/C service equipment (vacuum
pump, weight scale, manifold gauge set) to supplement the ACR(4).
Comments regarding recovery/recycling equipment:
^ Be certain to follow the manufacturer's instructions for machine operation and machine
maintenance.
^ Never introduce any refrigerant other than that specified into the machine.
^ Only R-134a containers with a 1/2"-16 ACME can be used to add R-134a to the ACR4
recovery/recycle machine.
^ Periodic maintenance of this equipment is required; follow the manufacturer's recommendations
as described in the equipment instruction manual.
Page 5981
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7337
Battery: Service and Repair Specific Gravity Check
1. Read hydrometer and thermometer indications at eye level.
- When electrolyte level is too low, tilt battery case to raise it for easy measurement.
Hydrometer temperature correction
2. Use the chart to correct your hydrometer reading according to electrolyte temperature.
Page 2228
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9619
Wiper Switch: Service and Repair
Combination Switch/Replacement
- Each switch can be replaced without removing combination switch base.
Combination Switch/Replacement
COMBINATION SWITCH BASE REMOVAL
- To remove combination switch base, remove base attaching screws.
Combination Switch/Replacement
- Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 5337
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Capacity Specifications
Refrigerant Oil: Capacity Specifications CAPACITY
CAPACITY
TOTAL SYSTEM CAPACITY LITERS TOTAL SYSTEM CAPACITY OUNCES (US)
0.20 6.8
Locations
Fuel Tank Unit: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 8151
2. Disconnect the A/C low hose from the A/C compressor and from the A/C low pipe coming from
the evaporator (see Figure 2).
3. Remove the clip from the support bracket (see Figure 2).
4. Remove the old hose from the vehicle.
5. Apply Nissan A/C system oil "Type R" (P/N: KLH00-PAGR0) to the 0-ring on the compressor end
of the new hose and to the 0-ring on the existing A/C low pipe (coming from the evaporator).
NOTE:
If it is necessary to replace the 0-ring on either the new A/C low hose or the existing low pipe, use
the correct 0-ring specified for "Captured 0-ring" type A/C connections (0-ring P/N: 92473-N8210).
6. Install the compressor end of the new A/C low hose to the compressor (see Figure 2) and tighten
the mounting bolt to 14 - 18 N.m (1.4 - 1.8 kg-m, 10 - 13 ft-lb).
7. Install the other end of the A/C low hose to the existing A/C low pipe so that the hose is
positioned between 0° and 5° relative to the horizontal plane (see Figure 3). Tighten the joint
connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Page 8720
Disclaimer
Page 4577
Optional Splice
Example Diagrams
Page 4741
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3938
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4426
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5905
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Diagram Information and Instructions
Leak Detection Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3951
Oxygen Sensor: Connector Views
Circuit
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 7557
SPECIAL TOOLS
Page 4547
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3448
Absolute Pressure Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 498
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3299
Ground Distribution
Page 2569
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2565
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Engine Controls - ECM Programming Interruption
Recovery
Engine Control Module: Technical Service Bulletins Engine Controls - ECM Programming
Interruption Recovery
Classification: EC10-015
Reference: NTB10-078
Date: June 21, 2010
REPROGRAM INTERRUPTION RECOVERY PROCEDURE
SERVICE INFORMATION
A complete step-by-step General Procedure for CONSULT-III (C-III) ECM Reprogram Interruption
Recovery is now available by attachment in this bulletin.
While performing ECM (Engine Control Module) reprogramming, the reprogramming may stop
(become interrupted) before it is 100% complete.
One of two messages may appear:
^ The VI probe is disconnected on USB, please check the connection of the probe.
^ Reprogramming fail, "Error code 0".
In many cases, reprogramming recovery is possible and the ECM may not need to be replaced if
the complete ECM part number has been registered into the ECM before reprogramming stopped.
NOTE:
ECM is referred to as ECU in C-III.
The ECM Reprogram Interruption Recovery General Procedure applies to Technical Service
Bulletins that include ECM reprogramming published in April 2010 and later.
IMPORTANT: BEFORE STARTING REPROGRAMMING
^ Connect a battery charger to the vehicle battery.
^ Be sure to turn OFF all vehicle electrical loads.
^ For ECM reprogramming, the C-III MUST be connected to the VI using the USB cable.
^ Be sure to connect the AC Adapter.
Page 161
Page 531
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3890
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Locations
Neutral Start Relay (Inhibitor Relay): Locations
Engine Compartment
Engine Compartment
Page 7648
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6210
Type Of Standardized Relays (Part 2 Of 2)
Page 703
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Engine Controls - ECM Programming Interruption
Recovery
PROM - Programmable Read Only Memory: Technical Service Bulletins Engine Controls - ECM
Programming Interruption Recovery
Classification: EC10-015
Reference: NTB10-078
Date: June 21, 2010
REPROGRAM INTERRUPTION RECOVERY PROCEDURE
SERVICE INFORMATION
A complete step-by-step General Procedure for CONSULT-III (C-III) ECM Reprogram Interruption
Recovery is now available by attachment in this bulletin.
While performing ECM (Engine Control Module) reprogramming, the reprogramming may stop
(become interrupted) before it is 100% complete.
One of two messages may appear:
^ The VI probe is disconnected on USB, please check the connection of the probe.
^ Reprogramming fail, "Error code 0".
In many cases, reprogramming recovery is possible and the ECM may not need to be replaced if
the complete ECM part number has been registered into the ECM before reprogramming stopped.
NOTE:
ECM is referred to as ECU in C-III.
The ECM Reprogram Interruption Recovery General Procedure applies to Technical Service
Bulletins that include ECM reprogramming published in April 2010 and later.
IMPORTANT: BEFORE STARTING REPROGRAMMING
^ Connect a battery charger to the vehicle battery.
^ Be sure to turn OFF all vehicle electrical loads.
^ For ECM reprogramming, the C-III MUST be connected to the VI using the USB cable.
^ Be sure to connect the AC Adapter.
Page 1179
Type Of Standardized Relays (Part 2 Of 2)
Page 2690
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5275
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1519
- Use the same procedure as mentioned in step 4.
7. If all valve clearances are within specification, install the following parts.
- Rocker cover
- All spark plugs
ADJUSTING
Adjust valve clearance while engine is cold. 1. Turn crankshaft to position cam lobe on camshaft of
valve that must be adjusted upward. 2. Place Tool (A) around camshaft as shown in figure.
3. Rotate Tool (A) so that lifter is pushed down.
Before placing Tool (A), rotate notch toward center of cylinder head (See image), to simplify shim
removal later.
CAUTION: Be careful not to damage cam surface with Tool (A).
4. Place Tool (B) between camshaft and the edge of the valve lifter to retain valve lifter.
CAUTION: Tool (B) must be placed as close to camshaft bracket as possible.
- Be careful not to damage cam surface with Tool (B).
5. Remove Tool (A).
6. Remove adjusting shim using a small screwdriver and a magnetic finger.
Page 6618
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7745
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Diagrams
Page 5668
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8438
^ Latch and unlatch it. Allow it to retract back into the retractor mechanism several times.
14. Repeat steps 1 through 13 on the remaining front seat belt.
Page 2891
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9529
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2732
Type Of Standardized Relays (Part 2 Of 2)
Testing and Inspection
Hazard Warning Flasher: Testing and Inspection
Combination Flasher Unit Check
Combination Flasher Unit Check
^ Before checking, ensure that bulbs meet specifications.
^ Connect a battery and test lamp to the combination flasher unit, as shown. Combination flasher
unit is properly functioning if it blinks when power
is supplied to the circuit.
Page 6601
Workflow
Page 4632
BARO / MAP Sensor Switching Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Specifications
Suspension Control ( Automatic - Electronic ): Specifications
This Suspension System uses components that are serviced as assemblies only.
Page 5573
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 9408
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1929
Cylinder Block Components
Page 533
Ground Distribution
Page 6707
2. Identify which hose is the Inlet and which hose is the Outlet to the oil cooler (refer to Charts A
and B).
3. Disconnect the oil cooler Inlet and Outlet rubber hoses from the steel cooler tubes (see Figure
3).
^ For Frontier (D22) w/bypass valve, remove the oil cooler inlet and outlet rubber hoses from the
bypass valve fittings (see Figure 6 shown)
NOTE:
If rubber material from a cooler hose remains on the steel tube or fitting, replace the rubber hose.
4. Allow any transmission fluid that remains in the cooler hoses to drain into the oil pan.
5. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-A0006) into the cooler Outlet hose (see Figure 4).
Page 7217
Brake Caliper: Service and Repair Overhaul
COMPONENTS
DISASSEMBLY
1. Push out pistons and dust covers with compressed air. Use a wooden block so that both pistons
come out evenly.
WARNING: DO NOT PLACE YOUR FINGERS IN FRONT OF PISTON.
CAUTION: ^
Do not scratch or score cylinder wall.
^ CL28VD type front disc brake uses plastic pistons, handle them carefully.
2. Remove piston seals with a suitable tool.
INSPECTION
Cylinder Body Check inside surface of cylinders for scores, rust, wear, damage or presence of foreign objects. If
any of the above conditions are observed, replace cylinder body.
- Minor damage from rust or foreign objects may be eliminated by polishing the surface with a fine
emery sandpaper. Replace cylinder body if necessary.
CAUTION: Use brake fluid to clean. Never use mineral oil.
Piston
Page 3232
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6635
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9260
MODELS WITHOUT POWER DOOR LOCKS
EL-ROOM/L-03 Interior Room Lamp (Part 3 Of 3)
Circuit Diagrams
Interior Room Lamp (Part 3 Of 3)
Interior Room Lamp Circuit Connectors
Page 9123
Description (Part 1 Of 2)
Page 6708
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only in areas with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath vapors or mist from spray.
6. Hold the hose and can as high as possible and spray Transmission Cooler Cleaner in a
continuous stream into the cooler Outlet hose until fluid flows out of the cooler Inlet hose for 5
seconds.
NOTE:
For Quest vehicles (V40/V41 Models), before removing the extension adapter hose from the cooler
Outlet hose, turn the can over and spray only propellant (gas) for a few seconds. This will avoid
fluid spill back out of the cooler hose.
7. Insert the tip of an air gun into the end of the cooler Outlet hose (see Figure 5).
8. Wrap a shop rag around the air gun tip and end of the cooler Outlet hose
9. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the cooler Outlet hose for
10 seconds to force out any remaining fluid.
10. Repeat steps 5 through 9 three additional times.
11. Place an oil drain pan under the banjo bolts that connect the oil cooler steel lines to the
transmission.
12. Remove the "banjo" bolts at the transmission, and pull the line fittings away from the
transmission.
13. Flush each steel line from the cooler side back toward the transmission by spraying
Transmission Cooler Cleaner in a continuous stream for 5 seconds.
14. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through each steel line from the
cooler side back toward the transmission for 10 seconds to force out any remaining fluid.
15. Ensure all debris is removed from the steel cooler lines.
16. Ensure all debris is removed from the banjo bolts and fittings.
17. Go to the Workflow chart for next step.
Frontier (D22) Cooler Bypass Cleaning
1. Place an oil drain pan under oil cooler hoses or lines before removing them.
2. Remove the lines from the transmission and allow the oil to drain from the lines (See Figure 6).
3. Remove the lines from the bypass valve (see Figure 6).
Page 3936
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4748
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1163
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7355
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 4225
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4118
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2560
Optional Splice
Example Diagrams
Page 9142
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Vehicle - Flat Towing Guideline
Towing Information: Technical Service Bulletins Vehicle - Flat Towing Guideline
Classification: GI99-001F
Reference: NTB99-020F
Date: August 8, 2008
LIMITATIONS ON FLAT TOWING OF NISSAN VEHICLES
This bulletin has been amended to apply to all current production models. Please discard all earlier
versions.
APPLIED VEHICLES: All Models
APPLIED DATES: 1992-2009
SERVICE INFORMATION
This Bulletin contains important guidelines and limitations concerning towing of Nissan vehicles
with all four wheels on the ground ("flat towing").
CAUTION:
Failure to follow these guidelines can result in severe transmission or drivetrain damage. For all
towing including "emergency towing" procedures refer to the Owners Manual.
1. 4WD/AWD vehicles equipped with Automatic Transmission (including CVT):
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ DO NOT use a tow dolly - doing so will damage drivetrain components.
2. FWD vehicles equipped with Automatic Transmission (including CVT) and Altima Hybrid:
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ An appropriate vehicle tow dolly MUST be placed under the vehicle's front wheels.
^ Always follow the dolly manufacturer's recommendations when using their product.
3. RWD vehicles equipped with Automatic Transmission:
^ DO NOT Flat Tow - doing so will damage internal transmission components.
^ An appropriate vehicle tow dolly MUST be placed under the vehicle's rear wheels.
^ Always follow the dolly manufacturer's recommendations when using their product.
4. 2WD/4WD vehicles equipped with a manual transmission:
^ Always flat tow with the manual transmission in Neutral.
^ Always flat tow a manual transmission vehicle facing forward.
^ Maximum speed while flat towing: 60 MPH.
^ After towing for 500 miles, stop. Start and idle the engine with the transmission in Neutral for two
minutes - failure to do so may cause damage to the transmission.
^ For 4WD vehicles, always flat tow with the transfer case in the 2 HI position.
Page 1301
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5261
EGR Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION EGR Temperature Sensor
Check resistance change and resistance value. If NG, replace EGR temperature sensor.
Page 5325
Overall inspection sequence
Page 7370
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9602
If you also remove door glass, refer to Service Manual for procedures.
TYPE-A: DOOR SASH + SEALING SCREEN TYPE (FR/RR)
1. Remove the door finisher assembly.
2. Remove the sealing screen and the door speaker (if equipped).
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
4. Remove the glass mounting bolts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove regulator assembly.
7. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-B: DOOR SASH + MODULE (FR)/FRAME (RR) TYPE
Page 2774
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3634
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5247
Ground Distribution
Page 4504
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Diagram Information and Instructions
Parking Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3894
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 727
Optional Splice
Example Diagrams
Page 2892
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1119
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 1318
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5576
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1058
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2091
Timing Chain: Service and Repair
For upper and lower timing chain replacement procdeure see TSB 98-094.
Page 9181
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6359
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5873
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3832
EC-FICD-01 IACV-FICD Solenoid Valve
WIRING DIAGRAM
COMPONENT INSPECTION IACV-FICD Solenoid Valve
Disconnect IACV-FICD solenoid valve harness connector.
- Check for clicking sound when applying 12V direct current to terminals.
Page 5545
Idle Speed/Throttle Actuator - Electronic: Electrical Diagrams
EC-AAC/V-01 Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
WIRING DIAGRAM
Page 5284
Leak Detection Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3879
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2880
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 3214
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 808
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5849
Optional Splice
Example Diagrams
Page 5930
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1271
Ground Distribution
Page 6214
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 8990
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7862
Suspension Strut / Shock Absorber: Service and Repair Rear
REPLACEMENT
- Remove shock absorber by disconnecting upper and lower end.
- Reverse procedure to install.
INSPECTION
- If oil leakage, cracks and deformation occurs, replace shock absorber assembly.
- If rubber bushings are cracked and deformed, replace rubber bushings.
Page 5268
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 740
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5754
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 664
Oxygen Sensor: Connector Views
Circuit
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 509
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 1144
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 7633
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5521
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5501
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4439
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Locations
Idle Up Control Valve: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 833
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7365
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 423
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3124
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 2205
^ This will help avoid pulling in air at the end of the refilling procedure.
NOTE:
^ See the appropriate Service Manual for cooling system refill capacity.
^ Use Genuine NISSAN Anti-freeze Coolant or equivalent, mixed 50/50 with distilled water or
demineralized water.
For step 3 of the Operating Instructions:
^ Make sure to Purge all air from the Refill Tube (intake hose) before beginning the refill process.
NOTE:
The Venturi will NOT be harmed if some coolant goes through it during the air purge process.
^ Place the container of coolant mixture above the level of the radiator during the refill process.
Page 2385
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 209
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 639
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4925
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7855
A strut which is leaking and needs to be replaced will exhibit a substantial amount of oil around the
exterior body of the strut. The oil layer will extend below the spring seat (dish), will be thick, contain
large pieces of dust and debris, and will saturate the strut rod (see Figure 1).
2. Strut Seepage (Considered Normal/Does Not Affect Operation and Performance) - Strut Does
Not Need to be Replaced:
A strut which is seeping will exhibit a thin layer of oil stain on the exterior body of the strut. The oil
stain will not usually extend beyond the spring seat (dish) but may extend past the spring seat
under conditions such as changes in ambient temperature or driving conditions. The oil stain will
not be thick nor will it contain dust or debris (see Figure 1).
Page 4678
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 2048
a. Insert Tool between cylinder block and oil pan. Be careful not to damage aluminum mating
surface. Do not insert screwdriver, or oil pan
flange will be damaged.
b. Slide Tool by tapping on the side of the Tool with a hammer.
8. Pull out oil pan from front side.
INSTALLATION
1. Use a scraper to remove old liquid gasket from mating surface of oil pan
- Also remove traces of liquid gasket from mating surface of cylinder block.
2. Apply a continuous bead of liquid gasket to mating surface of oil pan.
- Use Genuine RTV Silicone Sealant, Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Apply to groove on mating surface. Allow 7 mm (0.28 inch) clearance around bolt hole.
- Be sure liquid gasket diameter is 3.5 to 4.5 mm (0.138 to 0.177 inch).
- Attaching should be done within 5 minutes after coating.
Page 6349
Optional Splice
Example Diagrams
Page 5653
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 143
Ground Distribution
Page 3997
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3602
Type Of Standardized Relays (Part 2 Of 2)
Page 5293
Leak Detection Sensor: Electrical Diagrams
EC-PRE/SE-01 Evaporation Emission Control System Pressure Sensor (EVAP) (DTC: P0450)
WIRING DIAGRAM
Page 2494
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6266
Torque Converter Clutch Solenoid: Testing and Inspection
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 3126
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 8598
Radio/Stereo: Testing and Inspection
Radio
Trouble Diagnoses Chart
SPEAKER
1. Disconnect speaker harness connector. 2. Measure the resistance between speaker terminals
(+) and (-).
^ The resistance should be 2 - 4 Ohms.
3. Using jumper wires, momentarily connect a 9 V battery between speaker terminals (+) and (-).
^ A momentary hum or pop should be heard.
ANTENNA
Using a jumper wire, clip an auxiliary ground between antenna and body.
^ If reception improves, check antenna ground (at body surface).
^ If reception does not improve, check main feeder cable for short circuit or open circuit.
RADIO
All voltage inspections are made with:
^ Ignition switch ON or ACC
^ Radio ON
^ Radio connected (If removed for inspection, supply a ground to the case using a jumper wire).
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4729
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Locations
Cruise Control Module: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 6955
Ground Distribution
Page 4039
31. Select Diagnosis
32. Wait for System Call to complete and CAN Diagnosis to reach 51%.
When the CAN diagnosis reaches 51%, the process icons in the Process Guide Area at the top of
the screen will light (become enabled).
33. When the icons light, click on the "Final Check" icon.
Page 8849
C. Remove the sunroof panel by lifting the panel so that it stands straight up, then slide it toward
the drivers side to release it from the hinge brackets (see Figure 3). Place the sunroof panel in a
safe place until it is reinstalled.
2. Remove the sunroof weather strip from the vehicle body (see Figure 4).
Page 5241
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4328
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7520
Page 4600
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8215
Refrigerant Oil: Technical Service Bulletins A/C - R134a Charge Amount/Lubricant Chart
Classification: HA95-013
Reference: NTB95-068
Date: July 5, 1995
R134a CHARGE AMOUNTS/PAG LUBRICANT CHART
APPLIED VEHICLE(S): All equipped with R134a A/C systems
SERVICE INFORMATION For reference, the chart in this bulletin has been prepared. It contains
information by vehicle model and year regarding A/C systems conversion dates to R-134a type
systems. Please note, the dates shown indicate the conversion date at the manufacturing level, not
on dealer installed units.
Hub, Rotor and Wheel Bearing
Wheel Hub (Locking): Service and Repair Hub, Rotor and Wheel Bearing
Fuel System - Cold Weather Engine Starting Tips
Engine Oil: Technical Service Bulletins Fuel System - Cold Weather Engine Starting Tips
Classification: PI95-005A
Reference: NTB95-120A
Date: January 10, 2003
COLD WEATHER STARTING TIPS
This bulletin supersedes PI95-005. The Service Information has been amended. Please discard all
paper copies of PI95-005
APPLIED VEHICLE(S): All models
SERVICE INFORMATION
In case a vehicle is hard to start during cold weather, we suggest the following procedure.
^ These steps are a review of the procedure outlined in the Owner's Manual.
^ Use these steps when the weather is cold and the engine is hard to start.
1. Press the accelerator pedal down approximately 1/3 of the way to the floor.
2. Hold the accelerator pedal in this position while cranking the engine.
3. Once the engine has started release the accelerator pedal.
NOTE:
Do not race the engine while warming it up.
4. If the engine does not start within 15 seconds, stop cranking, wait at least 10 seconds. Then
repeat steps 1 through 3.
Once an engine is started in cold weather condition:
^ You should keep the engine running for a minimum of 2-3 minutes before shutting it off.
^ Starting and stopping of the engine over a short period of time may make the vehicle more
difficult to restart.
^ It may also adversely affect a vehicle's fuel economy.
Another factor which may affect a vehicles "startability" is the viscosity or thickness of the oil that is
used.
^ SAE 5W-30 viscosity engine oil is preferred for all temperatures, all year-round for most models.
^ SAE 5W-30 viscosity oil makes it easier to start the engine and maintain a stable idle during
warm-up.
Please communicate these cold weather starting tips to your customers.
Disclaimer
Page 1762
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Page 5533
Ground Distribution
Capacity Specifications
Refrigerant: Capacity Specifications REFRIGERANT
REFRIGERANT
KILOGRAMS POUNDS (US)
0.75-0.85 1.65-1.87
Model PB48S
Power Steering Line/Hose: Specifications Model PB48S
Power Steering Line Flare Nut:
Low Pressure .......................................................................................................................................
............................. 39 - 49 Nm (29 - 36 ft. lbs.) High Pressure ............................................................
....................................................................................................... 29 - 39 Nm (20 - 29 ft. lbs.)
Page 4392
EC-FRO2-01 Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Diagrams
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Page 8316
Impact Sensor: Description and Operation
Description
Description
4WD Models
The diagnosis sensor unit will deploy the air bags if the G-sensor and/or the crash zone sensor
activates simultaneously with the safing sensor while the ignition switch is ON. The passenger air
bag does not deploy when the passenger air bag deactivation switch is turned to the OFF position.
Page 736
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2278
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7908
Diagram Information and Instructions
Intake Air Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Specifications
Page 5729
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5239
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Pad: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Page 7610
Alignment: Specifications Camber
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 0°06' (0.10°) Nominal ......................................................................
............................................................................................................................. 0°36' (0.60°)
Maximum .............................................................................................................................................
.................................................... 1°06' (1.10°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Page 3702
8. Select the detected VI from the list. (See Figure 1.)
9. Select Connect. (See Figure 1.)
10. Wait for the "Checking the firmware version" message to clear.
11. Select ECM reprogramming / Programming (see Figure 2).
12. Select Select.
Page 6036
Optional Splice
Example Diagrams
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 6809
Axle Nut: Specifications Front Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Page 5364
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Diagram Information and Instructions
Engine Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1155
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9352
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3340
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5273
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3496
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 4703
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5391
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 103
Page 9292
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6190
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 9197
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2587
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 7021
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7907
Page 9021
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 972
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 902
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 502
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9249
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7162
Brake Rotor/Disc: Testing and Inspection
RUNOUT
1. Check runout using a dial indicator.
Make sure that wheel bearing axial end play is within the specifications before measuring.
2. If the runout is out of specification, machine rotor with on-car brake lathe ("MAD, DL-8700",
"AMMCO 700 and 705" or equivalent.
THICKNESS
If thickness variation exceeds the specification, machine rotor with on-car brake lathe.
Thickness variation (at least 8 positions): Maximum 0.02 mm (0.0008 inch)
Rotor repair limit (minimum thickness) 24.0 mm (0.945 in)
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 5179
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2816
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7082
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8280
10. To ensure proper connection, completely separate the air bag connector, then firmly snap it
back together (see Figure 1).
11. Re-locate the air bag connector and harness to the back side of the knee protector (see Figure
2).
12. Secure a tie wrap around the air bag connector, the harness, and the knee protector, affixing
the air bag connector and harness to the back of the knee protector (see Figure 2).
13. Secure a 2nd tie wrap around the knee protector and one side of the harness loop to provide
additional support (see Figure 2).
NOTE:
Be sure to loop the air bag connector harness when affixing it to the knee protector and allow a
large enough loop in the harness to reduce stress on the connectors (see Figure 2).
14. Re-connect the vehicle battery.
15. Clear the CONSULT code by selecting "AIR BAG SELF-DIAG. CURRENT" and touch
"ERASE".
16. Verify that the air bag light is no longer on.
17. Re-install the glove box assembly.
18. Re-set the radio presets.
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. A claim to Nissan for the repair of this
incident may be denied if the repair is not
Page 6684
4. Adjust clearance "C" shown in the figure while fully depressing clutch pedal.
Clearance "C": 0.1 - 1.0 mm (0.004 - 0.039 inch)
Page 1198
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5092
Leak Detection Solenoid: Testing and Inspection
COMPONENT INSPECTION Vacuum Cut Valve Bypass Valve
Check air passage continuity.
With CONSULT
Perform "VC/V BYPASS/V" in "ACTIVE TEST" mode.
OR
Without CONSULT
If NG or operation takes more than 1 second, replace vacuum cut valve bypass valve.
Page 3160
Fuel Temperature Sensor: Electrical Diagrams
EC-TFTS-01 Tank Fuel Temperature Sensor (DTC: P0180)
Circuit Diagrams
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 9389
Headlamp: Description and Operation System Description (For Canada)
The headlamp system for Canada vehicles contains a daytime light control unit that activates the
high beam headlamps at approximately half illumination whenever the engine is running. If the
parking brake is applied before the engine is started the daytime lights will not be illuminated. The
daytime lights will illuminate once the parking brake is released. Thereafter, the daytime lights will
continue to operate when the parking brake is applied. If the daytime light control unit receives a
ground signal from the generator, the daytime lights will not be illuminated. The daytime lights will
illuminate once a battery positive voltage signal is sent to the daytime light control unit from the
generator.
Power is supplied at all times:
^ through 15 A fuse (No. [38], located in the fuse and fusible link box)
^ to daytime light control unit terminal (3) and
^ to lighting switch terminal (8).
Power is also supplied at all times:
^ through 15 A fuse (No. [37], located in the fuse and fusible link box)
^ to daytime light control unit terminal (2) and
^ to lighting switch terminal (5).
With the ignition switch in the ON or START position, power is supplied:
^ through 7.5 A fuse [No. [5], located in the fuse block (J/B)]
^ to daytime light control unit terminal (12).
With the ignition switch in the START position, power is supplied:
^ through 7.5 A fuse [No. [7], located in the fuse block (J/B)]
^ to daytime light control unit terminal (1).
Ground is supplied to daytime light control unit terminal (9) through body grounds (E12) and (E54).
HEADLAMP OPERATION
Low beam operation When the lighting switch is turned to headlamp "ON" (2ND) position, "LOW
BEAM" (B), power is supplied:
^ from lighting switch terminal (7)
^ to RH headlamp terminal (D)
^ to daytime light control unit terminal (4).
Ground is supplied to RH headlamp terminal (E) through body grounds (E12) and (E54). Also,
when the lighting switch is turned to headlamp "ON" (2ND) position, "LOW BEAM" (B), power is
supplied:
^ from lighting switch terminal (10)
^ to LH headlamp terminal (D).
Ground is supplied:
^ to LH headlamp terminal (E)
^ from daytime light control unit terminal (7)
^ through daytime light control unit terminal (9)
^ through body grounds (E12) and (E54).
With power and ground supplied, the low beam headlamps illuminate.
High beam operation/flash-to-pass operation When the lighting switch is turned to headlamp "ON"
(2ND) position, "HIGH BEAM" (A) or "FLASH TO PASS" (C) position, power is supplied:
^ from lighting switch terminal (6)
^ to terminal (M) of RH headlamp.
When the lighting switch is turned to headlamp "ON" (2ND) position, "HIGH BEAM" (A) or "FLASH
TO PASS" (C) position, power is supplied:
^ from lighting switch terminal (9)
^ to daytime light control terminal (5)
^ to combination meter terminal (17) for the high beam indicator
^ through daytime light control terminal (6)
^ to terminal (M) of LH headlamp.
Ground is supplied in the same manner as low beam operation.
Page 9482
Main Harness (Part 2 Of 2)
Main Harness Layout Index
Page 2404
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9302
EL-ROOM/L-02 Interior Room Lamp (Part 2 Of 3)
Circuit Diagrams
Interior Room Lamp (Part 1 Of 3)
Interior Room Lamp (Part 2 Of 3)
Interior Room Lamp Circuit Connectors
Page 9533
Spot Lamp: Electrical Diagrams
EL-INT/L-01 Spot Lamps
Circuit Diagrams
Spot Lamps
Circuit Connectors
Page 4014
Page 4026
Page 2819
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7884
Wheel Bearing: Testing and Inspection Rear Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
Page 3182
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3641
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 2512
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3197
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 7080
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 1145
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 1662
^ Do not introduce compressed air to any refrigerant container or refrigerant component, because
contamination will occur.
^ R-134a in the presence of oxygen and under pressure may form a combustible mixture.
Therefore, never introduce compressed air into any R-134a container, cylinder, A/C component,
recover/recycle equipment, or other service equipment. This includes "empty" containers.
Refrigerant Terminology
Please use the correct name or names when specifying refrigerants. The guidelines are listed
below:
^ Freon --> is a registered trademark of DuPont, and should only be used if referring to DuPont
R-12.
^ DuPont's trade name for R-134a (automotive use) is Suva-->Trans A/C.
^ When referring to refrigerants, the terms Freon-->and Suva--> should not be used as a general
reference. The proper terms are R-12 and R-134a
Comments regarding refrigerants:
^ R-12 and R-134a are not compatible with each other and should never be mixed, even in the
smallest amounts.
^ R-134a for automotive use has a special tank fitting size (1/2" - 16 ACME) which is compatible
with automotive service equipment
^ When purchasing R-134a, be certain that the fitting size on the tank is 1/2" - 16 ACME. This
thread size is easy to recognize by the square thread, as shown.
^ Although R-134a has no ozone depletion potential (ODP), it does have a slight global warming
potential (GWP). Due to this slight GWP, as well as its high cost, venting of R-134a into the air is
not recommended.
^ Recovery/recycling of R-134a will be required by U.S. Federal Law, Clean Air Act Amendments of
1990.
Page 7780
6. Before installing, apply a thin coat of ATF to O-ring and install new O-ring into sector shaft cover.
7. Apply a thin coat of ATF to U-packing and install new U-packing into sector shaft cover.
NOTE: Direct grooved side of U-packing to needle bearing.
8. Before installing sector shaft, apply multi-purpose grease to adjusting screw and adjusting screw
shim. Install sector shaft into sector shaft cover.
Set adjusting screw to its outermost position.
9. Before installing oil seal, apply multi-purpose grease to oil seal lips. Install new oil seal into gear
housing with suitable tool.
10. Set piston rack at straight ahead position. Turn piston rack about 10 - 15° toward yourself with
your finger. This enables smooth insertion of sector
gear.
11. Gradually insert sector shaft into gear housing.
Page 3294
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9147
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3882
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6540
23. Install the driver's side lower knee protector bar using the (2) grade 4 bolts (identified by the 4
on the head) (refer to Figure 3). Bolt torque specification: 29 to 38 in/lb (0.33 to 0.41 kg/m).
24. Carefully install the driver's side lower panel by lifting it into place and snapping the panel
underneath the instrument cluster. Install (1) screw located above the hood lock release lever and
(1) screw located under the parking brake lever (refer to Figure 2).
25. Identify the airbag harness by its yellow connector end for the spiral cable and ensure it doesn't
interfere with the steering column cover installation. Damage to this harness may result in
unintended airbag deployment.
26. Place a clean shop towel over the lower knee protector to protect the steering column cover
during installation.
27. Carefully install the steering column upper and lower covers and install the (5) screws from the
underside and installing the garnish around the key switch. Be careful not to over tighten these
screws or pinch any wires.
28. Remove the shop towel from the knee protector.
29. Reconnect the negative battery cable.
30. Turn ignition on.
31. Operate the O/D switch at the end of the shift lever and confirm that the O/D indicator light
turns on and off with the switch.
32. Depress brake pedal and move shift lever through all gear positions. Confirm that the
transmission engages each position and that the shift indicator displays the correct gear position.
33. Return the shift lever to the park position.
34. Release the brake pedal and confirm that the gear shift lever will not move from the park
position.
35. Confirm that the ignition key can only be removed from the ignition switch when the ignition key
is in the "Lock" position and the transmission shift lever is in the "Park" position.
36. Start the engine and confirm that no dash warning lights are on.
37. Reset the radio presets.
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 6941
Description (Part 1 Of 2)
Page 798
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 3272
Type Of Standardized Relays (Part 2 Of 2)
Page 894
Optional Splice
Example Diagrams
Capacity Specifications
Power Steering Fluid: Capacity Specifications
Fluid Capacity [1] .................................................................................................................................
1000 - 1100 ml (35.2 - 38.7 Imperial Fluid Ounces)
[1] At the normal operating temperature of 60 - 80° C (140 - 176° F).
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9202
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2675
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5332
Page 3873
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6419
Type Of Standardized Relays (Part 2 Of 2)
Page 1047
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6397
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 152
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1606
^ This will help avoid pulling in air at the end of the refilling procedure.
NOTE:
^ See the appropriate Service Manual for cooling system refill capacity.
^ Use Genuine NISSAN Anti-freeze Coolant or equivalent, mixed 50/50 with distilled water or
demineralized water.
For step 3 of the Operating Instructions:
^ Make sure to Purge all air from the Refill Tube (intake hose) before beginning the refill process.
NOTE:
The Venturi will NOT be harmed if some coolant goes through it during the air purge process.
^ Place the container of coolant mixture above the level of the radiator during the refill process.
Page 9126
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7234
Brake Proportioning/Combination Valve: Testing and Inspection
INSPECTION
CAUTION: ^
Carefully monitor brake fluid level at master cylinder.
^ Use new brake fluid "DOT 3".
^ Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on paint areas, wash it away with water immediately.
^ Depress pedal slowly when raising front brake pressure.
^ Check rear brake pressure 2 seconds after front brake pressure reaches specified value.
Disconnect harness connector from ABS actuator and electric unit before checking.
1. Remove front LH tire. 2. Connect tool to air bleeders on front LH brake caliper and rear LH or RH
brake wheel cylinder. 3. Install front LH tire.
CAUTION: Before installing front LH tire, confirm the tool is not touching the front LH wheel.
4. Bleed air from the tool.
5. Check fluid pressure by depressing brake pedal
- Applied pressure (front brake) D1: 6,375 kPa (924 psi)
- Output pressure (rear brake) D2: 3,334 - 3,825 kPa (484 - 555 psi)
- If output pressure is out of specifications, replace master cylinder assembly
6. Bleed air after disconnecting the tool. 7. Install front LH tire.
Page 7229
Brake Hose/Line: Service and Repair
COMPONENTS
REMOVAL
CAUTION: ^
Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on painted areas, wash it away with water immediately.
^ All hoses must be free from excessive bending, twisting and pulling.
1. Connect vinyl tube to air bleeder valve. 2. Drain brake fluid from each air bleeder valve by
depressing brake pedal. 3. Remove flare nut connecting brake tube and hose, then withdraw lock
spring. 4. Cover openings to prevent entrance of dirt whenever disconnecting brake line.
INSPECTION
- Check brake lines (tubes and hoses) for cracks, deterioration or other damage. Replace any
damaged parts.
INSTALLATION
CAUTION: ^
Refill with new brake fluid DOT 3.
^ Never reuse drained brake fluid.
Page 6616
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Keyless Entry - Remote Programming
Technical Service Bulletin # 99-036A Date: 000510
Keyless Entry - Remote Programming
Classification: EL99-001A
Reference: NTB99-036A
Date: May 10, 2000
NISSAN KEYLESS REMOTE ENTRY PROGRAMMING
This amended version of NTB99-036 updates the Applied Vehicle, Service Information, and
Service This amended Procedure Sections. Please discard all paper copies of NTB99-036
APPLIED VEHICLES: 1998-00 Altima (L30) 1998-00 Frontier (D22) 1998-99 Maxima (A32) 2000
Maxima (A33)
1998-00 Pathfinder (R50) 1998-99 Sentra (B14) 2000
Sentra (B15)
1999-00 Quest (V41) 2000
Xterra (WD22)
SERVICE INFORMATION
If a remote switch assembly (remote controller) for an Applied Nissan vehicle does not operate or
operates intermittently, it may need to be re-programmed.
Use the following procedure to program the remote controller.
NOTE:
Not all trim level variations of a given vehicle include the remote controller function. Review the
vehicle sales brochure to determine if the vehicle trim level is equipped with the remote controller
function before starting the programming procedure.
Also confirm that the remote controller(s) being programmed is the correct remote controller for the
vehicle.
NOTE:
A. 1998-99 Altima, Maxima, Pathfinder, Sentra, and Frontier Models, 1999 Quest, and 2000
Frontier Models built before VIN 343314:
If the vehicle has more than one remote controller, the remote controllers must all be programmed
at the same time (a maximum of 4 remotes can be programmed).
B. All 2000 Altima, Maxima, Pathfinder, Sentra, Quest, Xterra, Frontier Crew Cab and Desert
Runner Models, and Frontier Models built after VIN 343314:
If the vehicle has more than one remote controller, the oldest ID code is erased when programming
a new remote when there are already 4 ID codes in memory.
If there are less than 4 ID codes stored in memory, then the new ID code is added and no ID codes
are erased, unless a new remote is programmed after filling all 4 memory positions. A maximum of
4 remotes can be programmed.
NOTE:
Regarding 2000 Maxima, Pathfinder, and Sentra vehicles:
You may use CONSULT-II to program remotes for these vehicles. Refer to the appropriate
Electronic Service Manual (ESM) for further information. You may also program these vehicle
remotes using the Service Procedure provided below.
CLAIMS INFORMATION
^ Re-programming of an otherwise functional remote controller is not covered by warranty.
Page 8583
Radio/Stereo: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2466
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4774
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 543
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9397
Headlamp: Service and Repair
Bulb Replacement
The headlamp is a semi-sealed beam type which uses a replaceable halogen bulb. The bulb can
be replaced from the engine compartment side without removing the headlamp body.
^ Grasp only the plastic base when handling the bulb. Never touch the glass envelope.
1. Disconnect the battery cable. 2. Disconnect the harness connector from the back side of the
bulb. 3. Unclip the bulb retaining clip, and then remove it. 4. Remove the Headlamp bulb carefully.
Do not shake or rotate the bulb when removing it. 5. Install in the reverse order of removal.
CAUTION:
^ Do not leave Headlamp reflector without bulb for a long period of time. Dust, moisture, smoke,
etc. entering Headlamp body may affect the performance of the Headlamp. Remove Headlamp
bulb from the Headlamp reflector just before a replacement bulb is installed.
Page 8220
Refrigerant Oil: Service and Repair
The lubricant used to lubricate the compressor circulates through the system with the refrigerant.
Whenever any A/C component is replaced or gas leakage occurs, lubricant must be added. If
lubricant quantity is not maintained properly, the following malfunctions may result:
^ Lack of lubricant: May lead to a seized compressor
^ Excessive lubricant: Inadequate cooling (thermal exchange interference)
LUBRICANT Name: Nissan A/C System Lubricant Type R Part No.: KLH00-PAGR0
CHECKING AND ADJUSTING Adjust the lubricant quantity according to the flowchart shown.
Page 2786
EC-RRO2/H-01 Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Diagrams
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Page 7737
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 526
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 453
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2760
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9550
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6410
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1855
Wheel Hub (Locking): Service and Repair Auto Lock Free Running Hub
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 986
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 9447
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5614
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Locations
Accessory Delay Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 1308
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Locations
Turn Signal Relay: Locations
Combination Flasher Unit M45
Main Harness (Part 1 Of 2)
Main Harness Layout
Page 4219
Ground Distribution
Page 3659
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4021
Page 123
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 8740
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Adjustments
Air/Fuel Mixture: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 8984
Ground Distribution
Page 4960
Canister Vent Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Locations
Cruise Control Module: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 3324
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4212
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5424
Fuel Pressure Regulator: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Service and Repair
Governor: Service and Repair
GOVERNOR VALVE
1. Remove propeller shaft from vehicle. 2. Support A/T assembly with a jack. 3. Remove rear
engine mounting member from A/T assembly. 4. Remove rear extension from transmission case. 5.
Remove governor valve assembly. 6. Inspect and repair governor valve assembly. Refer to
Transmission Overhaul.
Page 5064
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4685
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 6358
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4573
Vehicle Speed Sensor: Locations
Component Parts And Harness Connector Location
Page 1477
Page 858
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2620
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9124
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2597
Description (Part 1 Of 2)
Page 3552
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5051
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Locations
Power Door Lock Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 6798
Wheel Bearing: Fluid Type Specifications
Use a Quality, Multi-purpose wheel bearing grease.
Page 5639
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 4396
EC-RRO2-01 Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Diagrams
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Page 7493
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 5323
Page 4102
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4188
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 652
Ground Distribution
Page 1154
Description (Part 1 Of 2)
Page 742
Ground Distribution
Page 5751
Type Of Standardized Relays (Part 2 Of 2)
Page 2762
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3580
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6628
Ground Distribution
Page 3610
ECCS Component Parts Location
ECCS Component Parts Location
Specifications
Crankshaft Gear/Sprocket: Specifications
Page 304
Brake Switch (Cruise Control): Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Caliper: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Page 5054
Leak Detection Sensor: Electrical Diagrams
EC-PRE/SE-01 Evaporation Emission Control System Pressure Sensor (EVAP) (DTC: P0450)
WIRING DIAGRAM
Page 5899
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6488
Ground Distribution
Page 6483
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5825
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2245
Type Of Standardized Relays (Part 2 Of 2)
Page 7295
Wheel Speed Sensor: Specifications
Front: Sensor 13-17 ft.lb
Cable 39.1-51.2 in.lb
Rear Sensor (At Backing Plate) 13-17 ft.lb
Page 861
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7677
5. After installing drive shaft, check drive shaft axial end play. (4WD)
Do not reuse snap ring once it has been removed.
Refer to Axle Shaft Assembly, Constant Velocity Type / Service and Repair.
Page 3653
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1411
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
Page 6837
Wheel Hub (Locking): Diagrams
Page 7543
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
Page 390
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9366
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2696
Type Of Standardized Relays (Part 2 Of 2)
Page 6801
Wheel Bearing: Testing and Inspection Rear Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
Page 2699
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 3946
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9365
Ground Distribution
Page 7139
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Page 3239
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 8270
performed exactly as outlined in this bulletin.
Submit a Primary Failed Part (PP) line using the claims coding.
Locations
Antitheft Relay: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 9374
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4069
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5037
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3877
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3338
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Steering - Pull/Drift
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Diagram Information and Instructions
Intake Air Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8812
area (2' x 2' or less). Spread the liquid around with the pad before turning the buffer "ON". Use an
overlapping pattern to assure even polishing effort on all areas.
3. Second use a dual action sander with either a 3M foam pad or a Meguiar's foam pad, apply
polishing liquid over the work area (2' x 2' or less). Polish with the same technique as above. Do
not polish dry, wipe off excess material with a clean terry cloth towel.
If build up occurs, cool the surface with clean water and dry with a clean terry cloth towel and clean
the foam pad. Use a slower speed to prevent heating the surface and ground the vehicle to a metal
water pipe to reduce static electricity.
INSPECTION
Gently clean a small section with PPG DX330 Wax and Grease remover or similar wax remover,
using a clean towel to remove any polish/filler. Wipe in one direction to aid in distinguishing
between buffing scratches and towel scratches. Inspect the surface for swirl marks under full
sunlight or with a 500 watt halogen work lamp held at an angle about an arms length away.
CAUTION:
If you clean with an alcohol and water cleaning solution it will cause damage to plastic lenses. The
damage is not immediately visible, but develops later
Buffing
Buffing is done with a 8" buffer at 1500-1750 RPM to remove sanding scratches.
1. Clean the surface of all residue before buffing.
2. Apply a buffing liquid and spread it over the work area (2' x 2' or less) with the buffing pad before
turning the buffer "ON". Keep the pad nearly flat and move it slowly but continuously over the area.
Use an overlapping pattern to assure even buffing effort on all areas. Do not buff dry, wipe off
excess material with a clean terry cloth towel.
INSPECTION
Inspect the surface for sanding marks under full sunlight or with a 500 watt halogen work lamp held
at an angle about an arms length away. If necessary, gently clean a small section of the surface
with PPG DX330 Wax and Grease remover or similar wax remover, using a clean towel to remove
any polish/filler. Wipe in one direction to aid in distinguishing between buffing scratches and towel
scratches.
Sanding
1. Soak the sand paper in water with lubricant such as Meguiar's # 0016, for at least 15 minutes
before use. Mask the fenders and doors to reduce cleanup time. Wet sanding with a lubricant
prevents buildup on the paper and consequent gouging of the finish.
2. Sand with 2000 grit sand paper using a sanding pad, never by hand alone. Apply plenty of water
while sanding in one direction only, no more than 12-15 strokes. Do not sand in a circular pattern.
Do not sand over body lines and panel edges. Rinse the paper frequently to prevent gouging.
NOTE:
Wet sanding vehicles with the New Cross Link Clear Coat (NCLC) hard clear coat requires a more
aggressive sanding stroke. Vehicles with a conventional clear coat require a normal sanding
stroke.
3. Rinse with water and squeegee gently. As the squeegee clears the water, inspect for damage.
INSPECTION
Inspect the surface for damage under both strong fluorescent lights and full sunlight (a 500 watt
halogen work lamp held at an angle about an arms length away is necessary on cloudy days). A
smooth dull sanded surface is expected at this time. Bright spots or other irregularities indicate the
damage needs more sanding, up to the 0.5 mil standard.
4. After the damage is removed, measure the paint thickness in several places to determine if less
than 0.5 mil has been removed.
5. If the damage was deeper than 0.5 mil, the surface must be re-clear coated, or re-color coated
on vehicles with no clear coat. Refer to the Warranty Paint and Body Self-Study Course, or the
Warranty Flat Rate Manual for assistance.
6. If the damage has been removed with less than 0.5 mil of the color/clear coat removed, buff and
polish to remove the sanding marks.
Page 122
Engine Control Module: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4108
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
G Sensor
Impact Sensor: Service and Repair G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the G Sensor requires replacement of the Diagnosis Sensor Unit. Refer to Diagnosis
Sensor Unit / Service and Repair.
Page 1057
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4967
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2077
Page 2735
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 519
Description (Part 1 Of 2)
Page 4146
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6541
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 4341
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 4952
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7456
Component Parts And Harness Connector Location
Page 5998
Optional Splice
Example Diagrams
Page 3479
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3300
Ground Distribution
Page 3106
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4250
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3747
Engine Control Module: Description and Operation
COMPONENT DESCRIPTION
The ECM consists of a microcomputer, diagnostic test mode selector, and connectors for signal
input and output and for power supply. The unit controls the engine.
Page 4746
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4480
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 5032
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7974
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Page 5537
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Specifications
Fuel Pressure: Specifications PRESSURE
PRESSURE
Fuel pressure with vacuum hose connected 235 kpa (34 psi)
Fuel pressure with vacuum hose disconnected 294 kpa (43 psi)
Page 706
Ground Distribution
Page 3022
EGR Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Locations
Seat Belt Buckle Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2658
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6219
Spark Plug: Specifications Gap
Gap
Spark plug gap mm. 1.0-1.1
Spark plug gap in. 0.039-0.043
Page 1720
Component Parts And Harness Connector Location
Page 6202
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4297
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 620
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 1100
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7056
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3710
31. Select Diagnosis
32. Wait for System Call to complete and CAN Diagnosis to reach 51%.
When the CAN diagnosis reaches 51%, the process icons in the Process Guide Area at the top of
the screen will light (become enabled).
33. When the icons light, click on the "Final Check" icon.
Page 9555
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 8630
Engine Compartment
Engine Compartment
Page 4574
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 1410
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
Mechanical Specifications
Wheel Bearing: Mechanical Specifications
Front
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Rear
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 685
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor Heater
COMPONENT INSPECTION
Rear heated oxygen sensor heater Check the following.
1. Check resistance between terminals (2) and (3).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
2. Check continuity.
If NG, replace the rear heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Diagram Information and Instructions
Torque Converter Clutch Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Specifications
Firing Order: Specifications Firing order
Firing order
Firing order 1-3-4-2
Testing and Inspection
Ignition Cable: Testing and Inspection
COMPONENT INSPECTION Ignition wires
1. Inspect wires for cracks, damage, burned terminals and for improper fit. 2. Measure the
resistance of wires to their distributor cap terminal. Move each wire while testing to check for
intermittent breaks.
Resistance: 13.6 - 18.4 K Ohms (4.15 - 5.61 K Ohms/ft) at 25°C (77°F)
If the resistance exceeds the above specification, inspect ignition wire to distributor cap connection.
Clean connection or replace the ignition wire with a new one.
Page 5661
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5863
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4033
16. If there are no DTCs, select the "Repair" icon (see Figure 5).
^ If there are any DTCs other than those listed in the accompanying Symptom based TSB,
diagnose, perform repairs, and erase DTCs before continuing.
17. Select the "ECM Reprogram" icon. (See Figure 6.)
Locations
Cruise Control Servo: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 7659
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 162
Page 4260
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4169
Description (Part 1 Of 2)
Page 8152
Use a backup wrench on the low hose when tightening the joint connection nut.
8. Reinstall the clip to the support bracket (see Figure 2). Tighten the clip mounting bolt to 3.8 - 4.5
N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb).
9. Evacuate and recharge the vehicle's A/C system with 0.60 - 0.70 kg (1.32-1.54 lb) of R134a
refrigerant. Refer to page HA-51 of the 1998 Frontier Service Manual for the A/C evacuation and
recharge procedure.
10. Check the A/C low hose for refrigerant leaks. Refer to pages HA-48 through HA-50 of the 1998
Frontier Service Manual for the A/C leak test procedure. If a leak is found, repair as necessary
before proceeding with step 11.
11. Check A/C performance. Refer to page HA-38 of the 1998 Frontier Service Manual for the A/C
performance check procedure.
A. If the A/C performance is within specification, this service procedure is complete.
B. If the A/C performance is not within specification, repair as necessary.
Low Hose Angle Adjustment
1. Loosen the joint connection between the A/C low hose and the mating A/C low pipe by turning
the joint connection nut 1/4 turn counterclockwise (see Figure 4).
CAUTION:
Do not loosen the joint connection nut more than 1/4 turn as refrigerant can escape and the 0-ring
may become damaged. Also, use a backup wrench on the hose when loosening the joint
connection nut.
2. Loosen (but do not remove) the bolt that secures the clip to the support bracket (see Figure 4).
3. Move the A/C low hose so that it is positioned between 0° and 5° relative to the horizontal plane
(see Figure 5).
4. Retighten the clip mounting bolt to 3.8 - 4.5 N.m (0.4 - 0.5 Kg-m, 33 - 40 in-lb)
Page 3490
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 810
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4046
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 6008
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4126
Absolute Pressure Sensor: Testing and Inspection
COMPONENT INSPECTION Absolute pressure sensor
1. Remove absolute pressure sensor with its harness connector connected. 2. Remove hose from
absolute pressure sensor. 3. Turn ignition switch "ON" and check output voltage between ECM
terminal (45) and engine ground.
The voltage should be 3.2 to 4.8 V.
4. Use pump to apply vacuum of -26.7 kPa (-200 mmHg, -7.87 inHg) to absolute pressure sensor
as shown in figure and check the output voltage.
The voltage should be 1.0 to 1.4 V lower than the value measured in step 3.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -93.3 kPa (-700 mmHg, -27.56 inHg) or pressure over 101.3 kPa
(760 mmHg, 29.92 in Hg).
5. If NG, replace absolute pressure sensor.
Page 2899
Ground Distribution
Page 4670
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1325
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5666
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6336
31. Select Diagnosis
32. Wait for System Call to complete and CAN Diagnosis to reach 51%.
When the CAN diagnosis reaches 51%, the process icons in the Process Guide Area at the top of
the screen will light (become enabled).
33. When the icons light, click on the "Final Check" icon.
Page 1691
Page 5658
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6059
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1088
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7897
Axle Nut: Service and Repair Diagrams
Page 5832
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Recall - A/T Shifter Replacement
Technical Service Bulletin # 98-032 Date: 980401
Recall - A/T Shifter Replacement
Reference: NTB98-032
Date April 1, 1998
VOLUNTARY SAFETY RECALL CAMPAIGN 1998 FRONTIER AUTOMATIC TRANSMISSION
SHIFTER ASSEMBLY REPLACEMENT
CAMPAIGN IDENTIFICATION NO: 98V-064
APPLIED VEHICLE: 1998 Frontier (D22)
APPLIED VIN: 1N6DD21S*WC305007 to WC330328
INTRODUCTION
There is a possibility that on some 1998 Frontier trucks, a securing pin inside the Automatic
Transmission Shifter Assembly could come loose. This could allow the shift lever to be
inadvertently moved out of the "Park" position without the key in the ignition and could result in
unexpected movement of the vehicle if the parking brake is not engaged. There may also be
difficulty in shifting the lever in or out of "Park" with the key in the ignition.
IDENTIFICATION NUMBER
Nissan has assigned identification number 98V-064 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
Approximately 3,000
DEALER RESPONSIBILITY
It is the dealer's responsibility to check Service Comm for the campaign status on each vehicle
falling within the range of this campaign which for any reason enters the service department. This
includes vehicles purchased from private parties or presented by transient (tourist) owners and
vehicles in dealer inventory. Federal law requires that new vehicles in dealer inventory which are
the subject of a safety recall must be corrected prior to sale. Failure to do so can result in civil
penalties by the National Highway Traffic Safety Administration. While federal law applies only to
new cars, Nissan strongly encourages dealers to also correct any used trucks in their inventory
which fall within the range of this campaign prior to sale.
INSPECTION PROCEDURE
1. Check Service Comm to verify that the campaign procedure has not already been performed on
this vehicle.
Page 5625
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 510
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 5818
Ground Distribution
Page 5985
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3175
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1203
Ground Distribution
Page 7164
- Remove bearing outer races with suitable brass bar.
INSPECTION
Thoroughly clean wheel bearings and wheel hub.
Wheel Bearings Make sure wheel bearings roll freely and are free from noise, cracks, pitting and wear.
Wheel Hub Check wheel hub for cracks by using a magnetic exploration or dyeing test.
ASSEMBLY
1. Install bearing outer race with Tool until it seats in hub.
2. Install the sensor rotor using suitable drift and press. (Models with ABS) Always replace sensor
rotor with new one. Pay attention to the direction
of front sensor rotor as shown in figure.
3. Pack multipurpose grease in wheel hub and hub cap.
Page 3303
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8384
4. Pull the wire back and forth across the surface of the "D" ring, sliding it over all areas of the "D"
ring where it contacts the seat belt (see Figure 7) until all residue is removed.
NOTE:
It is very important to remove all residue build-up from the "D" ring before the following steps of the
procedure are completed. Failure to remove all residue build up will result in poor adhesion of the
special fluorine resin tape.
5. Peel off the top (smaller) backing sheet from one of the two fluorine resin tape sections provided
in the kit (see Figure 8).
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
9A.
NOTE:
Page 7544
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
Page 7965
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Page 5768
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9406
Optional Splice
Example Diagrams
Page 616
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3307
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6567
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1326
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 8160
Use the Diagnosis/Repair Flow Chart shown to determine the diagnosis and repair of the vehicle.
Low Hose Visual and Leak Detector Inspection
Low Hose Visual Inspection
Page 2929
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Diagram Information and Instructions
Absolute Pressure Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6251
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Body - Window Regulator/Motor Service Update
Window Regulator: Technical Service Bulletins Body - Window Regulator/Motor Service Update
Classification: BT04-021
Reference: NTB04-064
Date: May 25, 2004
NISSAN; WINDOW REGULATOR/MOTOR SERVICE
APPLIED VEHICLES: All Nissan
APPLIED DATES: 1995 to current date
SERVICE INFORMATION
If you should need to service the window regulator or motor on an Applied model, removing the
door window is no longer needed.
See the chart to find out which revised service procedure in this bulletin applies to the vehicle you
are working on.
Removal and Installation of Regulator Assembly
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
Page 9314
Fog/Driving Lamp Switch: Service and Repair
Combination Switch/Replacement
^ Each switch can be replaced without removing combination switch base.
Combination Switch/Replacement
^ To remove combination switch base, remove base attaching screws.
Combination Switch/Replacement
^ Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 6177
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 3413
Spark Plug: Application and ID
Spark Plug ID
Standard ..............................................................................................................................................
.............................................................. FR5AP-10 Cold ....................................................................
..............................................................................................................................................
FR6AP-10 Optional .............................................................................................................................
............................................................................... FR7AP-10
Page 3192
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4878
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Page 5782
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5705
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3512
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2979
Diagram Information and Instructions
Absolute Pressure Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3040
Ground Distribution
Page 665
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Operation (For Canada)
Headlamp: Description and Operation Operation (For Canada)
Operation (Daytime Light System For Canada)
After starting the engine with the lighting switch in the "OFF" or parking lamp (1ST) position, the
headlamp high beam automatically turns on. Lighting switch operations other than the above are
the same as conventional light systems.
Page 3554
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5386
Fuel Injector: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 9467
Type Of Standardized Relays (Part 2 Of 2)
Page 334
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Locations
Key Reminder Switch: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 485
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2248
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 7948
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Page 1129
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9258
Courtesy Lamp: Electrical Diagrams
MODELS WITH POWER DOOR LOCKS
EL-ROOM/L-01 Interior Room Lamp (Part 1 Of 3)
Page 3824
Idle Up Control Valve: Connector Views
Idle Air Control Valve (IACV)-Auxiliary Air Control (AAC) Valve
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve Circuit Connectors
Idle Air Control Valve (IACV)-FICD Solenoid Valve
IACV-FICD Solenoid Valve
IACV-FICD Solenoid Valve Circuit Connectors
Page 6678
Clutch Slave Cylinder: Service and Repair
INSPECTION
Check the following items, and replace as necessary. Rubbing surface of cylinder and piston, for uneven wear, rust and damage
- Piston with piston cup, for wear and damage
- Piston spring, for wear and damage
- Dust cover, for cracks, deformation and damage
Page 3006
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1388
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
Page 2711
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2715
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8025
Wheel Hub (Locking): Diagrams
Page 3842
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7100
Wheel Speed Sensor: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 574
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3589
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6179
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 8063
Blower Motor: Testing and Inspection Operation Check
1. Start engine. 2. Check blower motor. 3. Slide tan control lever to 1-speed and blower motor
should operate on 1-speed. 4. Slide fan control lever to 2-speed and continue checking blower
speed until all speeds are checked.
Page 6748
Seals and Gaskets: Service and Repair Differential Cover Gasket
REAR COVER GASKET REPLACEMENT (REAR FINAL DRIVE: MODEL C200)
1. Drain gear oil.
2. Remove rear cover and rear cover gasket. 3. Install new rear cover gasket and rear cover. 4. Fill
final drive with recommended gear oil.
Page 1015
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Page 3127
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 1014
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6040
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6031
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2380
31. Select Diagnosis
32. Wait for System Call to complete and CAN Diagnosis to reach 51%.
When the CAN diagnosis reaches 51%, the process icons in the Process Guide Area at the top of
the screen will light (become enabled).
33. When the icons light, click on the "Final Check" icon.
Page 9237
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2140
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 3627
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4041
40. Operate the ignition as shown in Figure 19.
NOTE:
For Hybrid vehicles, ignition ON = dash warning lights ON and the "READY" light OFF.
^ The above ignition cycle will reset ECM self learned Data.
41a. For Hybrid vehicles, skip to step 42.
41b. Start the engine and check the idle speed.
^ If idle speed is too low, perform Idle Air Volume Learning (IAVL). See the appropriate Service
Manual (ESM) for this procedure.
NOTE:
If the engine will not idle, hold the engine RPM at about 2000, then slowly bring it down to an idle.
IAVL can now be performed.
42. Test drive the vehicle; make sure it is operating correctly and the Check Engine light is OFF.
^ If the Check Engine light comes ON; diagnosis, repair, and erase DTCs.
Page 6331
18. At this point, refer to the symptom based TSB that directed you to reprogram the ECM.
The symptom based TSB is required, in order to determine which reprogramming part number to
use.
19. Select Next
NOTE:
If the screen in Figure 8 appears, there is data stored in the VI. Select "Yes" to proceed with
Reprogramming.
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8421
6. Remove retractor bolt and screw. 7. Remove retractor.
Page 9138
Ground Distribution
Page 5720
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 2730
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3236
Type Of Standardized Relays (Part 2 Of 2)
Page 431
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3967
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the rear healed oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 3146
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3770
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2854
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5089
Leak Detection Solenoid: Electrical Diagrams
EC-BYPS/V-01 Vacuum Cut Valve Bypass Valve (DTC: P1490)
Circuit Diagrams
Vacuum Cut Valve Bypass Valve (DTC: P1490)
Vacuum Cut Valve Bypass Valve (Circuit) Circuit Connectors
Page 150
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6563
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Rear Wheel Bearing Nut Torque
Axle Nut: Specifications Rear Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Specifications
Wheel Cylinder: Specifications
Cylinder Bore Diameter 0.8125 in
Bleeder Screw 61 - 78 in.lb
Crank Lever Bolt 14 - 18 ft.lb
Crank Lever Nut 20.8 - 39.1 in.lb
Mounting Bolts 52 - 95 in.lb
Pulley Bolt 40 - 54 ft.lb
Page 8187
Page 3667
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 537
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2639
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5699
Ground Distribution
Page 5100
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7893
Axle Nut: Specifications Axle / Bearing Lock Nut
TIGHTENING SPECIFICATIONS
Mounting Screws .................................................................................................................................
.................................. 49 - 69 Nm (36 - 51 ft. lbs.)
Page 525
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Crash Zone Sensor
SRS Component Parts Location
Page 9305
The timer is canceled, and interior room lamp turns off when:
^ driver's door is locked with remote controller, or
^ ignition switch is turned ON.
The smart entrance control unit will shut off the room light if left on for 30 minutes.
ON-OFF control When the room lamp switch is in the "DOOR" position, when the driver side door
or passenger door is opened the room lamp turns on. When any door is opened and then closed
while the ignition switch is not in the ON position, the room lamp timer operates.
MODELS WITHOUT POWER DOOR LOCKS
Power is supplied at all times:
^ through 7.5 A fuse [No. [26], located in the fuse block (J/B)]
^ to room lamp terminal (+).
With the room lamp switch ON, ground is supplied:
^ through body grounds (M14) and (M68)
^ to room lamp terminal (-).
When a door is opened with the room lamp switch in "DOOR" position, ground is supplied:
^ through door switch LH or RH terminal (1)
^ to room lamp switch terminal (SW).
With power and ground supplied, the room lamp turns ON.
Page 6494
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4956
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2660
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Drum: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Page 3156
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Compressor Clutch: Specifications GAP AND TORQUE
GAP AND TORQUE
Clutch Air Gap 0.3-0.6 MM. 0.012-0.024 IN.
Center Bolt Torque 12-15 NM. 9-11 FT. LB.
Page 5519
Description (Part 1 Of 2)
Page 3453
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 885
Control Units/Module
F29 Control Units/Module
Page 7682
Idler Arm: Service and Repair
STEERING LINKAGE
REMOVAL AND INSTALLATION
Refer to the illustrations when servicing.
1. Remove pitman arm with Tool.
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Transfer Case Shift Shaft Seal
Seals and Gaskets: Service and Repair Transfer Case Shift Shaft Seal
1. Remove front propeller shaft. 2. Remove companion flange. Refer to "CENTER CASE OIL
SEAL", in Transfer Case Output Shaft Seal. 3. Remove transfer control lever from transfer outer
shift lever. Then remove outer shift lever.
4. Remove shift shaft oil seal.
- Be careful not to damage cross shaft.
5. Install shift shaft oil seal.
- Before installing, apply multi-purpose grease to seal lip.
6. Install transfer control linkage. 7. Install companion flange. Refer to "CENTER CASE OIL SEAL",
in Transfer Case Output Shaft Seal. 8. Install front propeller shaft.
Page 3198
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 6263
NOTE: If "DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE" has been previously
conducted, always turn ignition switch "OFF" and wait at least 5 seconds before conducting the
next test.
TESTING CONDITION:
Always perform the test at a temperature of -10° C (14° F) or higher.
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Turn ignition switch "OFF" and
wait at least 5 seconds. (3) Start engine. (4) Select "TCC S/V FNCTN P1776" of "A/T (TCC S/N)" in
"DTC WORK SUPPORT" mode with CONSULT. (5) Touch "START". (6) When the following
conditions are met, "TESTING" will be displayed on the CONSULT screen. Maintain the conditions
continuously until
"TESTING" changes to "COMPLETED". (It will take approximately 20 seconds.) Selector lever: D
(OD "ON") Vehicle speed: 76 - 100 km/h (47 - 62 MPH) CMPS.RPM (REF): Less than 2,150 rpm
(Single cab model) Less than 2,300 rpm (King cab model) B/FUEL SCHDL: 2.5 - 5 ms THRTL POS
SEN: Less than 1.3V If "TESTING" is not displayed after 5 minutes, retry from step 2).
(7) Make sure that "OK" is displayed after touching "SELFDIAG RESULTS".
If "NG" is displayed, refer to "DIAGNOSTIC PROCEDURE".
OR
With Generic Scan Tool
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Select MODE 7 with GST.
OR
Page 2531
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4285
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7748
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Specifications
Backing Plate: Specifications
TIGHTENING SPECIFICATIONS
Backing Plate/Pulley Bolt
...................................................................................................................................................... 54 74 Nm (40 - 54 ft. lbs.)
Page 6948
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1926
Cylinder Head Components
Page 5016
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Page 3135
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Testing and Inspection
Blower Motor Switch: Testing and Inspection
Check continuity between terminals at each position.
Page 5285
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5535
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5330
Drivetrain - Transfer Case Noise/Hard Shifting
Tires: Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 9369
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Locations
Neutral Start Relay (Inhibitor Relay): Locations
Engine Compartment
Engine Compartment
Page 1213
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2406
Ground Distribution
Page 1021
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8026
Page 5684
Description (Part 1 Of 2)
Page 6582
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5674
Fuel Temperature Sensor: Connector Views
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 1480
Page 4371
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3764
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3780
Idle Speed/Throttle Actuator - Electronic: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Emissions System - MIL ON/DTC's Stored (EVAP)
Canister Purge Solenoid: Customer Interest Emissions System - MIL ON/DTC's Stored (EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Page 7683
2. Remove tie rod from knuckle arm with Tool.
DISASSEMBLY
Idler Arm Assembly
- Apply coat of multi-purpose grease to bushing.
- Press bushing into idler body, and insert shaft of idler bracket carefully until bushing protrudes.
Relay Rod And Tie-Rod
1. When tie rod ball joints and tie rod bar are separated, adjust tie rod length correctly.
NOTE: Adjustment should be done between ball stud centers.
2. Lock tie rod clamp nut so that ball joint on outer ball stud is as follows with respect to that on
inner ball stud.
Standard length "L" (2WD): 343.9 mm (13.54 inch)
Page 1636
Fluid - Transfer Case: Fluid Type Specifications
Specified Type: a)Nissan Matic "D" or equivalent Automatic Transmission Fluid [1] b)API GL-4 [2]
[1]Dexron III/Mercon or equivalent may also be used. Outside the continental United States and
Alaska contact an Infiniti dealership for more information regarding suitable fluids, including
recommended brand(s) of Dexron III/Mercon Automatic Transmission Fluid.
[2]Specified viscosity at ambient temperature ranges:
Below 10°C (50°F) ...............................................................................................................................
................................................................. SAE 75W Below 30°C (86°F) ............................................
.................................................................................................................................................... SAE
80W Below 40°C 104°F) .....................................................................................................................
............................................... SAE 75W-90/SAE 80W-90 Between 30°C (86°F) and -10°C (14°F) ...
.............................................................................................................................................................
SAE 85W Between 40°C (104°F) and 0°C (32°F) ...............................................................................
...................................................................................... SAE 90 Above 10°C (50°F) ..........................
..............................................................................................................................................................
.......... SAE 140
NOTE: 75W-90 is preferable for ambient temperatures below 40°C (104°F)
Page 9436
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2832
Type Of Standardized Relays (Part 2 Of 2)
Page 426
Ground Distribution
Page 151
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3142
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5803
Optional Splice
Example Diagrams
Instruments - Fuel Gauge Inaccurate
Grounding Point: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 144
Ground Distribution
Page 3616
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6489
Ground Distribution
Page 2347
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Sunroof - Headliner Squeak Noises
Headliner: All Technical Service Bulletins Sunroof - Headliner Squeak Noises
Classification: BT98-003
Reference: NTB98-040
Date: June 1, 1998
1998 FRONTIER SQUEAK NOISE IN HEADLINER NEAR SUNROOF
APPLIED VEHICLE: All 1998 Frontier (D22) - sunroof models only
SERVICE INFORMATION If a 1998 Frontier exhibits a "scratchy" type of squeak noise in the
headliner around the edges of the sunroof, the cause may be the headliner panel rubbing on the
vehicle body.
Use the following procedure to resolve the incident:
SERVICE PROCEDURE
1. Remove the sunroof panel as follows:
A. Remove the sunroof shade panel by turning the securing knobs counterclockwise and pulling
the panel down and towards the rear of the vehicle to release (see Figure 1).
B. Disconnect the sunroof handle from the sunroof handle latch by depressing the two release
buttons on the handle latch while pushing up on the sunroof panel (see Figure 2).
Page 2755
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 276
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1043
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3563
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Symptom Related Diagnostic Procedures
Audible Warning Device: Symptom Related Diagnostic Procedures
Symptom Chart
Symptom Chart
Diagnostic Procedure 1 (Lighting Switch Input Signal Check)
Models With Power Door Locks
Diagnostic Procedure 1 (With Power Door Locks)
Models Without Power Door Locks
Page 3031
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 333
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 5518
Optional Splice
Example Diagrams
Page 795
Type Of Standardized Relays (Part 2 Of 2)
Page 5910
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 6141
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 3808
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2859
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1003
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5486
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2980
TRANSFER CASE DIAGNOSTIC TABLE
Page 5789
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 2374
16. If there are no DTCs, select the "Repair" icon (see Figure 5).
^ If there are any DTCs other than those listed in the accompanying Symptom based TSB,
diagnose, perform repairs, and erase DTCs before continuing.
17. Select the "ECM Reprogram" icon. (See Figure 6.)
Page 4425
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 467
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3459
Absolute Pressure Sensor: Description and Operation
COMPONENT DESCRIPTION
The absolute pressure sensor is connected to the MAP/BARO switch solenoid valve by a hose.
The sensor detects ambient barometric pressure and intake manifold pressure and sends the
voltage signal to the ECM. As the pressure increases, the voltage rises.
Service and Repair
Heater Core: Service and Repair
REMOVAL
1. Drain the cooling system. 2. Disconnect the two heater hoses from inside the engine
compartment. 3. Remove the cooling unit.
a. Evacuate the A/C system using refrigerant recovery equipment. b. Disconnect the two refrigerant
lines from the engine compartment.
- Cap the A/C lines to prevent moisture from entering the system.
c. Remove the glove box and mating trim d. Disconnect the thermal amplifier connector. e. Remove
the cooling unit.
4. Remove the steering member assembly.
5. Remove the heater unit. 6. Remove the heater core.
INSTALLATION
Installation is basically the reverse order of removal. Refill the cooling system.
- Recharge the A/C system.
Page 8818
The table provides a brief description of some types of paint contamination you may encounter.
Select a 2' x 2' test section to perform the following Contamination Test Removal.
C. RE-Wash
C. Re-Wash with detergent and water solution, keeping it wet for 4-5 minutes. To avoid scratching
the finish, do not rub, gently move the solution around with light pressure. Do not allow the solution
to dry before rinsing. Use, clean warm water and a clean terry cloth towel. Frequently rinse off the
terry cloth towel to avoid scratches from entrapped dirt. Replace the towel with a clean one once it
becomes soiled. Rinse with a spray of clean water. Repeat up to four times.
D. Clean
D. Clean with Nissan Bug and Tar remover using a clean terry cloth towel and gentle pressure.
Repeat up to four times.
E. Applying Finish Kare
E. Apply Finish Kare to remove iron particles and acids. See procedure below:
Caution:
Attempting to buff iron particles will cause severe scratching.
1. Apply Finish Kare # 1119, solution, keeping it wet for 4-5 minutes. To avoid scratching the finish,
do not rub, gently move the solution around with light pressure. Do not allow the solution to dry
before rinsing.
2. After the wash and rinse, gently dry the contaminated surfaces with the terry cloth towels to
remove the majority of the water. Use gentle pressure
Page 2712
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6866
Page 3073
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6771
Axle Shaft: Testing and Inspection
Check boot and drive shaft for cracks, wear, damage or grease leakage.
Page 3798
Description (Part 1 Of 2)
Page 1283
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 464
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6005
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9286
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 813
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6324
Attachment General Procedure
Page 3998
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2749
ECCS Component Parts Location
ECCS Component Parts Location
Page 3276
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 2588
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 3958
EC-RRO2/H-01 Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Diagrams
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Page 6617
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2964
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 4007
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 5719
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Page 8973
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3784
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8956
Diagnostic Procedure 1 (Without Power Door Locks)
Diagnostic Procedure 2 (Key Switch Input Signal Check)
Models With Power Door Locks
Diagnostic Procedure 2 (With Power Door Locks)
Models Without Power Door Locks
Page 4692
Optional Splice
Example Diagrams
Page 1122
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5617
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1797
^ Any tools, equipment cones, or other wheel balancing equipment items should not touch the
outside surface of chrome type wheels.
Wheel Alignment:
^ Alignment sensors with metal mounting hooks should not be used on chrome type wheels.
^ Some alignment equipment manufacturers may have protective rubber pads available that can be
used to cover the metal mounting hooks.
Page 3840
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8372
3. Insert the "D" ring cleaning wire under the seat belt; between the belt and the "D" ring (see
Figure 3).
^ The "D" ring cleaning wire is provided in the kit that's listed in the Parts Information.
4. Pull the wire back and forth across the surface of the "D" ring.
^ Make sure all residue is removed from the "D" ring in all areas where it contacts the seat belt
NOTE:
^ It is very important to remove all residue build-up from the "D" ring.
^ If you don't remove all residue build-up, the fluorine resin tape won't stick properly.
Page 5281
Ground Distribution
Page 2114
b. Install new crankshaft seal in front cover (see Figure 4).
c. Apply a continuous bead of RTV sealant to the front cover (see Figure 5).
NOTE:
Use Genuine Nissan RTV silicone sealant P/N 999MP-A7007, Three Bond P/N TB1207D or
equivalent.
c. Also place RTV sealant on the head gasket surface.
d. Install the front cover to the engine.
6. Install oil strainer and oil pan, referring to "Installation" in the "OIL PAN" section of the Service
Manual.
7. Install the oil pump and distributor drive shaft.
Page 4207
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Page 5771
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6305
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4917
Ground Distribution
Page 4149
Ground Distribution
Page 9199
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 919
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8719
MIRROR TROUBLE SHOOTING GUIDE
Compass zone adjustment
Adjust compass zone after EC mirror installation or change of geographical location:
1. The zone setting is factory preset to Zone 8. Refer to Compass Calibration Zone Map (Figure 1)
to find correct compass zone setting for your geographical location.
To change the zone setting, press and hold right button until "ZONE" appears in display. Press
button repeatedly until desired compass zone number is reached. The display will change back to
the compass direction after 3 seconds right button is not activated.
Calibration adjustment (Compass Reset)
The compass function calibrates itself under normal driving conditions. However, occasional
circumstances may cause the compass to operate inaccurately. Calibrate the mirror compass if
only one direction or a limited number of directions are displayed, no mater which way you are
traveling.
To reset the compass, follow these instructions:
Drive to an open, level area away from large metallic objects or structures.
2. Turn off non-essential electrical accessories (rear window defrost, heater/air conditioning,
wipers) and close doors.
3. Press and hold the button to the left of the display window, for approximately 3 seconds, until
"CAL" text appears in the display. Release the button to enter the calibration mode.
4. Drive slowly in a circle until "CAL" text disappears in the display, (about two or three circles).
5. The compass reset procedure is now complete.
Page 4531
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4395
EC-RRO2-01 Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Diagrams
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Diagram Information and Instructions
Canister Vent Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5035
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9417
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9521
Ground Distribution
Page 5687
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7186
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Page 6573
Ground Distribution
Page 627
3. Loosen the sensor approximately 10 degrees.
4. Spray with rust penetrant again for 2 to 3 seconds.
5. Tighten the sensor 10 degrees, then loosen the sensor 10 degrees.
^ Repeat this motion several times until the sensor begins to turn more easily.
6. Continue the tightening/loosening motion while gradually unscrewing the sensor. Stop when the
sensor will not unscrew any further.
7. Spray with rust penetrant again for 2 to 3 seconds.
8. Repeat steps 6 and 7 until the sensor is removed.
Page 3593
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Capacity Specifications
Fluid - A/T: Capacity Specifications
Specified amount .................................................................................................................................
.................................................. 8.75 qts. (7.9 Liters)
Page 3597
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4331
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1131
Ground Distribution
Page 4540
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1626
Fluid - M/T: Fluid Type Specifications
Specified type ......................................................................................................................................
.................................... API GL-4 SAE 75W-90 only
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 8816
CLAIMS INFORMATION
Repairs of environmental contamination discovered and reported at the time of vehicle delivery to
the dealership can be claimed utilizing procedures outlined in Warranty Bulletin WB92-003 dated
January 24, 1992.
Outline of Procedures
A. Wash with detergent such as (Nissan P/N 999MP-A3100), then dry.
B. Identify the type of contamination using fluorescent lights and magnification. If paint over-spray
is found, a specialized repair process is needed.
If paint contamination other than paint over spray is suspected, test a 2' x 2' section on each
affected panel as follows to determine the severity of damage and repair effort needed:
C. Re-wash several times to remove detergent and water soluble spots. If spots are removed,
wash affected panels.
D. Clean with Nissan Bug and Tar remover for solvent soluble spots. If spots are removed, clean
affected panels.
E. To remove iron particles and acid rain residue, use Finish Kare # 1119 followed by # 883 (apply
# 883 several times if necessary) and always neutralize with # 118SC.
Page 7622
NOTE: -
Make sure that the tie rod bars are screwed into the tie rod tube more than 35 mm (1.38 inch).
- Make sure that the tie rods are the same length.
Standard length (A = B):
2WD = 343.9 mm (13.54 inch) 4WD = 297.6 mm (11.72 inch)
c. Tighten clamp bolts or lock nuts, then torque them.
WHEEL TURNING ANGLE
1. Set wheels in straight-ahead position. Then move vehicle forward until front wheels rest properly
on turning radius gauge.
2. Rotate steering wheel all the way right and left; measure turning angle.
On power steering models, turn steering wheel to full lock and apply force (at circumference of
steering wheel) of 98 - 147 N (22 - 33 lbs.) with engine at idle.
CAUTION: Do not hold the steering wheel at full lock for more than 15 seconds.
Wheel turning angle (Full turn): Refer to Specification Table.
Page 6200
Ground Distribution
Page 1455
Page 7053
Optional Splice
Example Diagrams
Page 6171
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7401
Fuse: Diagrams
Fuse
a. If fuse is blown, be sure to eliminate cause of problem before installing new fuse. b. Use fuse of
specified rating. Never use fuse of more than specified rating. c. Do not partially install fuse; always
insert it into fuse holder properly. d. Remove fuse for "ELECTRICAL PARTS (BAT)" if vehicle is not
used for a long period of time.
Page 3320
Description (Part 1 Of 2)
Page 3772
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Campaign - A/C Hose Replacement
Technical Service Bulletin # 98-064 Date: 980908
Campaign - A/C Hose Replacement
Reference: NTB98-064
Date: September 8, 1998
VOLUNTARY SERVICE CAMPAIGN 1998 FRONTIER POOR OR NO A/C COOLING DUE TO A/C
LOW HOSE CRACKING
CAMPAIGN I.D. # P8163
APPLIED VEHICLE: All 1998 Frontier (D22) built before VIN # 1N6DD2***WC387655
INTRODUCTION
Some 1998 Frontiers may develop refrigerant leaks in the vehicle's air conditioner lower return
hose due to vibration. To ensure customer satisfaction and prevent any future inconvenience,
Nissan has initiated a Voluntary Service Campaign to install a bracket on the lower return hose of
the air conditioning system to minimize this vibration.
IDENTIFICATION NUMBER
Nissan has assigned identification number P8163 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
The number of vehicles potentially affected is approximately 90,000.
DEALER RESPONSIBILITY
It is a dealer responsibility to check (with SERVICE-COMM) each vehicle falling within the range of
this service campaign which for any reason enters the service department. This includes vehicles
purchased from your dealership, other Nissan dealerships, private parties, or vehicles presented by
transient (tourist) owners and vehicles in dealer inventory.
A list of affected customers in your area will be sent to Nissan regional offices for distribution to
Nissan dealers once all of the customer notification letters have been sent. This list will assist you
in identifying those vehicles involved in this service campaign. Each dealership service department
is encouraged to contact these vehicle owners to have the required inspections and repairs
completed on their vehicle.
CUSTOMER FOCUS
Maintaining a strong customer relationship throughout the Frontier Air Conditioner Lower Return
Hose Campaign is one of the key goals of NMC. Each and every action taken by Nissan and the
servicing dealer will have a significant impact in retaining current Frontier owners as future
customers.
Page 1408
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
Page 4291
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 4045
Passenger Compartment (Part 1 Of 2)
Page 4386
Type Of Standardized Relays (Part 2 Of 2)
Page 598
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3698
Attachment General Procedure
Page 4522
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 8516
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process. The side marker/tail/license lamps and
interior illumination will flash twice when this step is accurately completed.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming.
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
of the remote controllers you have programmed.
Page 3598
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7274
Vacuum Brake Booster: Testing and Inspection Off-Vehicle Inspection
Output Rod Length Check
Testing For Vacuum At Booster
1. Apply vacuum of -66.7 kPa (-500 mm Hg, -19.69 in Hg) to brake booster with a hand vacuum
pump. 2. Check output rod length.
Specified length: 10.275 - 10.525 mm (0.4045 - 0.4144 inch)
Page 1125
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9263
Courtesy Lamp: Testing and Inspection
MODELS WITH POWER DOOR LOCKS
Trouble Diagnoses (For Models With Power Door Locks)
SYMPTOM: Room lamp does not turn on when any door is opened, or timer does not operate
properly.
Page 8161
1. Visually inspect the metal tube portion of the A/C low hose between the compressor flange and
the rubber hose for cracks or signs of leakage such as traces of oil or dirt deposits (see Figure 1).
NOTE:
Use a mirror and flashlight (as needed) to view the underside of the hose end.
Low Hose Leak Detector Inspection
1. Use an approved electronic leak detector (Kent Moore model # J39400 or # J41995) to check
the A/C low hose for leaks. Refer to pages HA-48 through HA-50 of the 1998 Frontier Service
Manual for the leak check procedure.
NOTE:
Make sure the electronic leak detector is properly calibrated and that the probe tip filter is clean
before performing the leak check. Refer to the leak detector owner's manual to calibrate and/or
change the probe tip filter as needed.
A/C Low Hose Installation
1. Use appropriate equipment to discharge and recover all remaining refrigerant from the vehicle's
A/C system. Refer to pages HA-51 and HA-52 of the 1998 Nissan Frontier Service manual for the
discharge and recovery procedure.
Page 5182
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3206
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 6966
Type Of Standardized Relays (Part 2 Of 2)
Page 5196
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Specifications
Compression Check: Specifications
GENERAL ENGINE SPECIFICATIONS
MISCELLANEOUS COMPONENTS
Page 5291
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1726
Power Supply Routing: Schematic (Part 2 Of 2)
Page 1583
2. Disconnect the A/C low hose from the A/C compressor and from the A/C low pipe coming from
the evaporator (see Figure 2).
3. Remove the clip from the support bracket (see Figure 2).
4. Remove the old hose from the vehicle.
5. Apply Nissan A/C system oil "Type R" (P/N: KLH00-PAGR0) to the 0-ring on the compressor end
of the new hose and to the 0-ring on the existing A/C low pipe (coming from the evaporator).
NOTE:
If it is necessary to replace the 0-ring on either the new A/C low hose or the existing low pipe, use
the correct 0-ring specified for "Captured 0-ring" type A/C connections (0-ring P/N: 92473-N8210).
6. Install the compressor end of the new A/C low hose to the compressor (see Figure 2) and tighten
the mounting bolt to 14 - 18 N.m (1.4 - 1.8 kg-m, 10 - 13 ft-lb).
7. Install the other end of the A/C low hose to the existing A/C low pipe so that the hose is
positioned between 0° and 5° relative to the horizontal plane (see Figure 3). Tighten the joint
connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Page 4707
Ground Distribution
Page 6065
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 5402
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6863
Drive/Propeller Shaft: Diagrams Rear Propeller Shaft
Page 4329
Ground Distribution
Page 7781
12. Tighten sector shaft cover bolts.
13. Set worm gear turning torque by turning sector shaft adjusting screw and locking with lock nut.
Refer to Pre-Disassembly Adjustment.
NOTE: If set and adjusting turning torque is considerably different from the value before
disassembly, replace the entire assembly.
14. Check sector shaft end play in neutral position. If not within specification, adjust it with adjusting
screw.
End play: less than 0.1 mm (0.004 inch)
15. Check worm gear preload. If not within specification, readjust it.
Pre-Disassembly Adjustment
STEERING GEAR MODEL PB59K
1. Measure turning torque at 360° position.
Specifications
Page 8196
Refrigerant: Fluid Type Specifications REFRIGERANT TYPE
REFRIGERANT TYPE
HFC-134 (R134a)
Page 5581
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2068
3. Apply engine oil to new oil seal and install it using a suitable tool.
REAR OIL SEAL
1. Remove flywheel or drive plate. 2. Remove rear oil seal retainer. 3. Remove rear oil seal from
retainer.
- Be careful not to scratch rear oil seal retainer.
4. Apply engine oil to new oil seal and install it using suitable tool.
- Install new oil seal in the direction shown.
Page 3656
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9201
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2663
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 4232
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 5411
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3083
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5108
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3140
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1919
Page 4701
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Specifications
Page 4848
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 7733
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3010
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 582
Intake Air Temperature Sensor: Connector Views
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7067
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4356
Oxygen Sensor: Locations
ECCS Component Parts Location
Page 4267
Type Of Standardized Relays (Part 2 Of 2)
Page 7521
SPECIAL TOOLS
Page 9261
Courtesy Lamp: Description and Operation
MODELS WITH POWER DOOR LOCKS
Power supply and ground Power is supplied at all times:
^ through 30 A fusible link (Letter [f], located in the fuse and fusible link box)
^ to circuit breaker terminal (1)
^ through circuit breaker terminal (2)
^ to smart entrance control unit terminal (1).
Power is supplied at all times:
^ through 7.5 A fuse [No. [28], located in the fuse block (J/B)]
^ to key switch terminal (1).
Power is supplied at all times:
^ through 7.5 A fuse [No. [26], located in the fuse block (J/B)]
^ to room lamp terminal (+).
When the key is inserted into ignition key cylinder, power is supplied:
^ from key switch terminal (2)
^ to smart entrance control unit terminal (24).
With the ignition switch in the ON or START position, power is supplied:
^ through 7.5 A fuse [No. [5], located in the fuse block (J/B)]
^ to smart entrance control unit terminal (11).
Ground is supplied:
^ through body grounds (M14) and (M68)
^ to smart entrance control unit terminal (10).
When the LH door is opened, ground is supplied:
^ from door switch LH terminal (2)
^ to smart entrance control unit terminal (15).
When the RH door is opened, ground is supplied:
^ from door switch RH terminal (1)
^ to smart entrance control unit terminal (35).
When the LH door is unlocked, the smart entrance control unit receives a ground signal:
^ through body grounds (M14) and (M68)
^ to door unlock sensor terminal (4)
^ from door unlock sensor terminal (2)
^ to smart entrance control unit terminal (12).
When a signal, or combination of signals is received by the smart entrance control unit, ground is
supplied:
^ through smart entrance control unit terminal (9)
^ to room lamp terminal (SW).
With power and ground supplied, the interior room lamp illuminates.
Switch operation When the room lamp switch is ON, ground is supplied:
^ through body grounds (M14) and (M68)
^ to room lamp terminal (-).
With power and ground supplied, the room lamp turns ON and remains ON until the room lamp
switch is turned to OFF or turned to the "DOOR" position and the doors are closed.
Interior room lamp timer operation When the room lamp switch is in the "DOOR" position, the smart
entrance control unit keeps the interior room lamp illuminated for about 30 seconds when:
^ LH door is unlocked
^ key is removed from ignition key cylinder while driver's door is closed
^ driver's door is opened and then closed while ignition switch is not in the ON position.
Page 7743
Ground Distribution
Page 6146
ECCS Component Parts Location
ECCS Component Parts Location
Page 5353
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1362
Page 2782
Oxygen Sensor: Electrical Diagrams
Circuit
EC-FRO2-01 Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Diagrams
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Page 1844
Page 3181
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 375
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 612
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1320
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3213
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4387
Oxygen Sensor: Connector Views
Circuit
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 9561
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4909
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 994
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 8162
2. Disconnect the A/C low hose from the A/C compressor and from the A/C low pipe coming from
the evaporator (see Figure 2).
3. Remove the clip from the support bracket (see Figure 2).
4. Remove the old hose from the vehicle.
5. Apply Nissan A/C system oil "Type R" (P/N: KLH00-PAGR0) to the 0-ring on the compressor end
of the new hose and to the 0-ring on the existing A/C low pipe (coming from the evaporator).
NOTE:
If it is necessary to replace the 0-ring on either the new A/C low hose or the existing low pipe, use
the correct 0-ring specified for "Captured 0-ring" type A/C connections (0-ring P/N: 92473-N8210).
6. Install the compressor end of the new A/C low hose to the compressor (see Figure 2) and tighten
the mounting bolt to 14 - 18 N.m (1.4 - 1.8 kg-m, 10 - 13 ft-lb).
7. Install the other end of the A/C low hose to the existing A/C low pipe so that the hose is
positioned between 0° and 5° relative to the horizontal plane (see Figure 3). Tighten the joint
connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Page 1099
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 822
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6015
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2676
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8448
^ Latch and unlatch it. Allow it to retract back into the retractor mechanism several times.
14. Repeat steps 1 through 13 on the remaining front seat belt.
A/C - System Changes As Result of R-134A Refrigerant
Technical Service Bulletin # 92-001 Date: 920101
A/C - System Changes As Result of R-134A Refrigerant
Classification: HA92-OO1
Reference: NTB92-OO1
Date: January 1992
A/C SYSTEM CHANGES FOR R-134A REFRIGERANT
(ALL MODELS)
APPLIED VEHICLE(S): All Models
Service Information
Introduction
Due to its harmful effect on the ozone layer, R-12 is being phased out and replaced by R-134a,
which does not harm the ozone layer. While the R-134a A/C system is very similar to an R-12 A/C
system, the differences in the refrigerant, lubricants, and service equipment are important.
Nissan A/C systems will change from R-12 to R-134a at the time of new vehicle (full model change)
introduction, or in some cases by model year update to an existing model line.
This bulletin describes all of the general differences between the R-12 and R-134a systems. For
details of an R-134a system for a specific model, refer to that model's service manual or new
product information.
Refrigerant Handling Precautions
^ R-12 refrigerant and R-134a refrigerant must never be mixed, even in the smallest amounts, as
they are incompatible with each other. If the refrigerants are mixed, compressor failure is likely to
occur.
^ Use only specified lubricant for the R-134a A/C system and R-134a components. If lubricants
other than those specified are used, compressor failure is likely to occur.
^ The specified R-134a lubricant absorbs moisture from the atmosphere at a rapid rate, therefore
the following handling precautions must be observed:
^ When removing refrigerant components from a vehicle, immediately cap (seal) the component to
minimize the entry of moisture from the atmosphere.
^ When installing refrigerant components to a vehicle, do not remove the caps (unseal) until just
before connecting the components. Also, complete the connection of all refrigerant tubes and
hoses without delay to minimize the entry of moisture into the system.
^ Use the specified lubricant from a sealed container only. Containers must be re-sealed
immediately after dispensing the lubricant. Lubricant in containers which are not properly sealed
will become moisture saturated. Such lubricant is no longer suitable for use and should be properly
disposed.
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose and
throat. Use only approved service equipment meeting SAE standards to discharge R-134a
Systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service.
^ Always wear eye and hand protection (goggles and gloves) when working with any refrigerant or
air conditioning system.
^ Do not store or heat refrigerant containers above 125° (52°C).
^ Do not heat a refrigerant container with an open flame; if container warming is required, place the
bottom of the container in a pail of warm water.
^ Do not intentionally drop, puncture, or incinerate refrigerant containers.
^ Keep refrigerant away from open flames: hazardous gas will be produced if refrigerant burns.
^ Refrigerant will displace oxygen, therefore be certain to work in well ventilated areas to prevent
suffocation.
Page 6018
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1442
CAMBER, CASTER AND KINGPIN INCLINATION
Before checking camber, caster or kingpin inclination, move vehicle up and down on turning radius
gauge to minimize friction. Ensure that the vehicle is in correct posture.
- Measure camber, caster and kingpin inclination of both right and left wheels with a suitable
alignment gauge and adjust in accordance with the following procedures.
Camber, Caster, and Kingpin inclination: Refer to Specification Table.
- In the following two cases, temporarily tighten the adjusting bolts while aligning the matching
marks with the slits as shown in the figure and measure the camber, caster and kingpin inclination:
(1) When replacing the upper link or other suspension parts with new ones (2) When matching
marks were not painted on adjusting bolts before suspension disassembly procedures.
- If matching marks were already painted during suspension disassembly, align the matching marks
with the slits, then temporarily tighten the adjusting bolts. Measure the camber, caster and kingpin
inclination.
ADJUSTMENT
Page 2812
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Testing and Inspection
Turn Signal Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 5713
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 3555
Ground Distribution
Page 1821
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 6379
Torque Converter Clutch Solenoid: Description and Operation
SYSTEM DESCRIPTION
The ECM controls torque converter clutch solenoid valve to cancel the lock-up condition of A/T.
When the solenoid valve is turned on, lock-up is cancelled. When the solenoid valve is turned oft,
A/T lock-up is operational.
Conditions for lock-up cancel: Torque converter clutch solenoid valve is turned "ON" when; Throttle valve is fully closed (during idling or deceleration)
- Engine coolant temperature is below 40° C (104° F)
- Engine is stopped
Conditions for lock-up operation: Under 55 to 63 km/h (34 to 39 MPH) (2/8 throttle on flat road), lock-up does not operate even when
the torque converter clutch solenoid valve is "OFF".
- Over 58 to 66 km/h (36 to 41 MPH) (2/8 throttle on flat road), lock-up should operate because the
torque converter clutch solenoid valve is "OFF". To confirm vehicle lock-up, the torque converter
clutch solenoid valve must be in operation ("ON" during idle and deceleration, and "OFF" during
acceleration) and engine speed should drop. When the accelerator pedal is depressed (less than
2/8) in lock-up, the engine speed should not change abruptly. If there is a big jump in engine
speed, there will be no lock-up.
CONSULT REFERENCE VALUE IN DATA MONITOR MODE
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
ON BOARD DIAGNOSIS LOGIC
DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE
CAUTION: Always drive vehicle at a safe speed.
Page 2788
EC-RRO2-01 Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Diagrams
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Page 4533
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7328
Battery: Service Precautions Methods of Preventing Over-Discharge
CAUTION:
If it becomes necessary to start engine with a booster battery and jumper cables:
^ Use a 12-Volt booster battery.
^ After connecting battery cables, ensure that they are tightly clamped to battery terminals for good
contact.
^ Never add distilled water through the hole used to check specific gravity.
The following precautions must be taken to prevent over-discharging a battery.
^ The battery surface (particularly its top) should always be kept clean and dry.
^ The terminal connections should be clean and tight.
^ At every routine maintenance, check the electrolyte level.
^ When the vehicle is not going to be used over a long period of time, disconnect the negative
battery terminal. (If the vehicle has an extended storage switch, turn it off.)
Methods Of Preventing Discharge
^ Check the charge condition of the battery. Periodically check the specific gravity of the
electrolyte. Keep the close check on charge condition to prevent overdischarge.
Page 4601
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 401
Absolute Pressure Sensor: Electrical Diagrams
EC-AP/SEN-01 Absolute Pressure Sensor
Circuit Diagrams
Absolute Pressure Sensor
Circuit Connectors
Page 5152
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9277
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3745
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2590
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 5766
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 815
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 365
Turn Signal Switch: Service and Repair
- Each switch can be replaced without removing combination switch base.
COMBINATION SWITCH BASE REMOVAL
- To remove combination switch base, remove base attaching screws.
- Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 9185
Backup Lamp: Electrical Diagrams
EL-BACK/L-01 Back-up Lamp
Circuit Diagrams
Back-up Lamp
Circuit Connectors
Specifications
Steering Wheel: Specifications
TIGHTENING SPECIFICATIONS
Mounting Nut .......................................................................................................................................
.................................. 29 - 39 Nm (22 - 29 ft. lbs.) Special Bolt ...........................................................
................................................................................................................. 15 - 25 Nm (11 - 18 ft. lbs.)
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Wheel Play ..........................................................
...................................................................................................................... 35 mm (1.38 inch) or
less
Page 3518
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4605
Control Units/Module
F29 Control Units/Module
Page 4423
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2060
Page 9195
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
A/C - Idler Pulley Whine Noise at 3000 rpm
Idler Pulley: All Technical Service Bulletins A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 8291
Diagnosis Sensor Unit: Service and Repair
Description
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact.
Removal Of Diagnosis Sensor Unit
1. Disconnect driver and passenger air bag module connectors. 2. Remove console box. 3.
Disconnect air bag diagnosis sensor unit connector. 4. Remove bolts from air bag diagnosis sensor
unit. Use TAMPER RESISTANT TORX (Size T5O) to remove special bolts. 5. Remove the air bag
diagnosis sensor unit.
To install, reverse the removal procedure.
After replacement, perform self-diagnosis for SRS. Refer to "SRS Operation Check".
CAUTION: Air bag diagnosis sensor unit must always be installed with forward mark "<=" pointing
towards the front of the vehicle for proper operation. Also check air bag diagnosis sensor unit for
cracks deformities and rust before installation and replace as required.
Page 3786
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 871
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1795
Print this page and keep it by your tire mounting equipment
Page 5693
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5948
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 2604
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7942
TRANSFER CASE DIAGNOSTIC TABLE
Page 2471
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5207
EGR Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION EGR Temperature Sensor
Check resistance change and resistance value. If NG, replace EGR temperature sensor.
Page 1784
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 273
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4469
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Locations
Daytime Running Lamp Control Unit: Locations
Engine Compartment
Engine Compartment
Page 3937
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3933
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 825
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2872
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 8828
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 7668
2. Remove tie rod from knuckle arm with Tool.
DISASSEMBLY
Idler Arm Assembly
- Apply coat of multi-purpose grease to bushing.
- Press bushing into idler body, and insert shaft of idler bracket carefully until bushing protrudes.
Relay Rod And Tie-Rod
1. When tie rod ball joints and tie rod bar are separated, adjust tie rod length correctly.
NOTE: Adjustment should be done between ball stud centers.
2. Lock tie rod clamp nut so that ball joint on outer ball stud is as follows with respect to that on
inner ball stud.
Standard length "L" (2WD): 343.9 mm (13.54 inch)
Page 6058
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4044
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4130
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 9413
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1401
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Technical Service Bulletin #
08-097D Date: 110426
Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagrams
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 5544
Type Of Standardized Relays (Part 2 Of 2)
Page 7563
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
Page 1351
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
Page 6626
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5331
Page 3075
Ground Distribution
Page 1025
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9464
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 995
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 5536
Idle Speed/Throttle Actuator - Electronic: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3298
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 7751
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 644
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6589
Without Scan Tools
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Stop the vehicle, turn ignition switch "OFF", wait at least 5 seconds and then turn "ON" (4)
Perform "Diagnostic Test Mode II (Self-diagnostic results)" with ECM.
DIAGNOSTIC PROCEDURE
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Service and Repair
Parking Pawl: Service and Repair
PARKING COMPONENTS INSPECTION
1. Remove propeller shaft from vehicle. 2. Support A/T assembly with a jack. 3. Remove rear
engine mounting member. 4. Remove rear extension from transmission case. 5. Replace parking
components if necessary. 6. Reinstall any part removed.
- Always use new sealing parts.
Page 1105
Type Of Standardized Relays (Part 2 Of 2)
Page 4637
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Specifications
Page 5584
EC-AAC/V-01 Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Circuit Diagrams
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve Circuit Connectors
Page 9253
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4505
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5415
Type Of Standardized Relays (Part 2 Of 2)
Page 3025
Optional Splice
Example Diagrams
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 9257
Courtesy Lamp: Connector Views
MODELS WITH POWER DOOR LOCKS
Interior Room Lamp (Part 1 Of 3)
Interior Room Lamp (Part 2 Of 3)
Interior Room Lamp Circuit Connectors
MODELS WITHOUT POWER DOOR LOCKS
Interior Room Lamp (Part 3 Of 3)
Interior Room Lamp Circuit Connectors
Specifications
Harmonic Balancer - Crankshaft Pulley: Specifications
Page 1175
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 418
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8599
Radio Voltages
Radio Voltages
Page 2377
21. When the screen in Figure 10 appears, ECM reprogramming is complete.
NOTE:
If you can't print the above screen:
a. Select the Print icon.
b. Select Save.
c. Select OK.
A copy of the screen is now saved in the Toughbook(R) PC.
NOTE:
If you saved a copy of the screen in Figure 10 and need to print it at a later date, you can find it in
the following file location:
At the bottom left corner of the computer screen click on Start.
Page 9519
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4695
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2611
Ground Distribution
Page 1574
5. Retighten the joint connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Use a backup wrench on the low hose when tightening the joint connection nut.
Low Hose Bracket Installation
1. Separate the two halves of the bracket by removing the screw.
2. Install the two halves of the bracket on the compressor end of the A/C low hose at the tube bend
closest to the compressor flange (see Figure 6).
NOTE:
When installing the bracket, make sure the bracket half with the weld nut on the side points away
from the engine.
3. Install and tighten the bracket screw to 3.8 - 4.5 N.m (0.4 - 0.5 kg-m, 33 - 40 in-lb).
Drivetrain - Transfer Case Noise/Hard Shifting
Tires: Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 3919
Oxygen Sensor: Specifications
For FRONT or REAR Heated Oxygen Sensors.
Resistance 2.3 - 4.3 ohms at 77 deg F
Page 8165
Page 5912
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 2387
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 1067
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 3454
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7414
Fusible Link: Diagrams
Fusible Link
A melted fusible link can be detected either by visual inspection or by feeling with finger tip. If its
condition is questionable, use circuit tester or test lamp.
CAUTION:
^ If fusible link should melt, it is possible that critical circuit (power supply or large current carrying
circuit) is shorted. In such a case, carefully check and eliminate cause of problem.
^ Never wrap outside of fusible link with vinyl tape. Important: Never let fusible link touch any other
wiring harness, vinyl or rubber parts.
Page 4515
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5254
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2584
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4065
Ground Distribution
Page 9183
Type Of Standardized Relays (Part 2 Of 2)
Page 3358
Page 448
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3447
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9163
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1156
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4615
Description (Part 1 Of 2)
Page 5425
Fuel Pressure Regulator: Testing and Inspection
1. Stop engine and disconnect fuel pressure regulator vacuum hose from intake manifold. 2. Plug
intake manifold with a rubber cap. 3. Connect variable vacuum source to fuel pressure regulator. 4.
Start engine and read indication of fuel pressure gauge as vacuum is changed.
Fuel pressure should decrease as vacuum increases. If results are unsatisfactory, replace fuel
pressure regulator.
Page 5600
Main Harness (Part 2 Of 2)
Fuel Pump Relay Connector # M46
Page 3729
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5903
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 160
Page 6017
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5613
Description (Part 1 Of 2)
Page 9457
Ground Distribution
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Drivetrain - Transfer Case Noise/Hard Shifting
Universal Joint: Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 7376
Ignition Ballast Resistor: Testing and Inspection
COMPONENT INSPECTION Resistor
1. Disconnect resistor harness connector.
2. Check resistance between terminals (1) and (2).
Resistance: Approximately 2.2 K Ohms [at 25° C (77° F)]
If NG, replace resistor.
Page 7323
Slow Battery Charge
CLAIMS INFORMATION Please reference the Nissan "Assurance Products Resource Manual" for
battery claim procedures.
Specifications
Flex Plate: Specifications
Torque .................................................................................................................................................
............................... 142 - 152 Nm (105 - 112 ft. lbs.)
Page 8582
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3141
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6133
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3001
Ground Distribution
Page 5027
Optional Splice
Example Diagrams
Page 9539
Description (Part 1 Of 2)
Lights - Plastic Lens Isopropyl Alcohol Caution
Body Emblem: Technical Service Bulletins Lights - Plastic Lens Isopropyl Alcohol Caution
Classification: BF87-013
Reference: TS87-064
Date: April 20, 1987
ISOPROPYL ALCOHOL CAUTION ALL MODELS
APPLIED VEHICLES(S): All Models
SERVICE INFORMATION
Isopropyl alcohol solution used for general cleaning and for preparing the vehicle surface for
graphics installation will cause the plastic lenses on turn signal lights, side marker lights, corning
lights, tail lights, etc., to crack.
Extreme care must be used to avoid all contact of isopropyl alcohol with any plastic lens (surface).
^ The isopropyl alcohol solution must not drip onto any plastic lens.
^ During cleaning of the vehicle, a wiping cloth soaked with alcohol solution must not contact any
plastic lens.
^ During application of the urethane XE/SE Truck graphics, alcohol solution spray mist (used as the
wetting solution) must not contact any plastic lens.
Page 4918
Ground Distribution
Page 2947
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 3189
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Capacity Specifications
Differential Fluid - M/T: Capacity Specifications
Differential Carrier Gear Oil
Rear: H190A ........................................................................................................................................
.............................................. 1.5 liters (3-1/8 pt)
C200 ....................................................................................................................................................
................................... 1.3 liters (2-3/4 pt)
Front (4WD):R180A .............................................................................................................................
............................................. 1.3 liters (2-3/4 pt)
Page 3354
Fuel Pressure: Testing and Inspection
NOTE:
- When reconnecting fuel line, always use new clamps.
- Make sure that clamp screw does not contact adjacent parts.
- Use a torque driver to tighten clamps.
- Use Pressure Gauge to check fuel pressure.
- Do not perform fuel pressure check with system operating. Fuel pressure gauge may indicate
false readings.
1. Release fuel pressure to zero. 2. Disconnect fuel hose between fuel filter and fuel tube (engine
side).
3. Install pressure gauge between fuel filter and fuel tube. 4. Start engine and check for fuel
leakage.
5. Read the indication of fuel pressure gauge.
At idling:
With vacuum hose connected
Approximately 235 kPa (2.4 kg/cm.sq, 34 psi)
With vacuum hose disconnected
Approximately 294 kPa (3.0 kg/cm.sq, 43 psi)
If results are unsatisfactory, perform "Fuel Pressure Regulator Check".
Page 4687
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 708
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Engine Controls - Seized O2 Sensor Removal Procedure
Technical Service Bulletin # 10-009 Date: 100119
Engine Controls - Seized O2 Sensor Removal Procedure
Classification: EM09-015
Reference: NTB10-009
Date: January 19, 2010
REMOVAL PROCEDURE FOR SEIZED EXHAUST SENSOR
APPLIED VEHICLES: All Nissan vehicles
SERVICE INFORMATION
If an exhaust sensor is seized in the exhaust manifold/catalyst/front tube, perform the procedure
described in this bulletin to remove the sensor and prevent unnecessary replacement of the
exhaust manifold/catalyst/front tube.
In most cases this procedure is successful. This is because the threads of the exhaust sensors are
made of a softer material than the part they thread into on the exhaust manifold/catalyst/front tube.
NOTE:
The replacement of exhaust manifolds/catalysts/front tubes for stripped exhaust sensor threads
may not be considered a warrantable expense.
This procedure can be performed by two methods:
Method #1 - If the Sensor Can Be Easily Accessed
^ The procedure can be performed on the vehicle.
^ The exhaust manifold/catalyst/front tube will not have to be removed.
Method #2 - If the Sensor Cannot Be Easily Accessed
^ The exhaust manifold/catalyst/front tube must be removed from the vehicle.
^ The procedure will be performed with the part clamped in a vice.
Method #2 is described in this bulletin. Method #1 is the same as Method #2 except that it is
performed on the vehicle.
Service Procedure
Rust Penetrant
Recommended rust penetrants to be used in this procedure:
Page 3125
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 6946
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3145
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7459
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4489
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4626
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9216
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5773
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1173
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4800
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 4113
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3739
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4920
Canister Purge Volume Control Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 421
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7566
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Page 4599
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7892
Axle Nut: Specifications Front Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Page 6413
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3000
Ground Distribution
Page 3411
Spark Plug: Specifications Gap
Gap
Spark plug gap mm. 1.0-1.1
Spark plug gap in. 0.039-0.043
Page 8
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2719
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4035
20. The screen in Figure 9 is displayed during data transfer.
CAUTION: During data transfer:
^ DO NOT disturb the VI, DDL, or USB connections.
^ DO NOT try to start the engine or turn the ignition OFF.
^ The engine fans may turn on. This is normal.
NOTE:
^ If "Transfer To VI" reaches 100%, and "Transfer To ECU" does not start, or
^ The Error in Figure 9A displays.
a. DO NOT replace the ECM. The ECM is not damaged.
b. Check / make sure the battery voltage is above 12 V and all vehicle electrical loads are turned
OFF (see step 3 and 4).
c. Select Cancel Data Transmission, then click on the "Home" icon (upper left corner of C-III
screen) and re-start from the beginning (step 1).
Part 2
Page 6649
1. Remove solenoids.
a. Remove overdrive cancel solenoid valve and side plate from lower body. b. Remove O-ring from
solenoid.
c. Remove torque converter clutch solenoid valve from upper body. d. Remove O-ring from
solenoid valve.
2. Disassemble upper and lower bodies.
a. Place upper body facedown, and remove bolts, reamer bolts, side plate and support plates. b.
Remove lower body and separator plate as a unit from upper body.
- Be careful not to drop orifice check valve, spring and steel balls.
c. Place lower body facedown, and remove separator plate. d. Remove orifice check valve and
orifice check spring.
e. Check to see that steel balls are properly positioned in upper body and side plate, then remove
them from upper body.
Page 3932
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3565
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 275
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 475
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 6134
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 280
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7582
Page 8085
To prevent deformation of the pulley groove, the puller claws should be hooked under (not into) the
pulley groove.
- Remove the field coil harness clip using a screwdriver.
- Remove the three field coil fixing screws and remove the field coil.
INSTALLATION
- Install the field coil.
- Be sure to align the coil's pin with the hole in the compressor's front head.
- Install the field coil harness clip using a screwdriver.
- Install the pulley assembly using the installer and a hand press, and then install the snap ring
using snap ring pliers.
- Install the drive plate on the drive shaft, together with the original shim(s). Press the drive plate
down by hand.
Page 3914
3. Loosen the sensor approximately 10 degrees.
4. Spray with rust penetrant again for 2 to 3 seconds.
5. Tighten the sensor 10 degrees, then loosen the sensor 10 degrees.
^ Repeat this motion several times until the sensor begins to turn more easily.
6. Continue the tightening/loosening motion while gradually unscrewing the sensor. Stop when the
sensor will not unscrew any further.
7. Spray with rust penetrant again for 2 to 3 seconds.
8. Repeat steps 6 and 7 until the sensor is removed.
Page 8350
^ Latch and unlatch it. Allow it to retract back into the retractor mechanism several times.
14. Repeat steps 1 through 13 on the remaining front seat belt.
Page 2754
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4340
Type Of Standardized Relays (Part 2 Of 2)
Mechanical Specifications
Wheel Bearing: Mechanical Specifications
Front
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Rear
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 4398
EC-RRO2-01 Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Diagrams
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 5856
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4263
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1341
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Page 8081
Compressor Clutch: Component Tests and General Diagnostics
Page 2948
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4141
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3966
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor
COMPONENT DESCRIPTION
The rear heated oxygen sensor (rear HO2S), after three way catalyst, monitors the oxygen level in
the exhaust gas. Even if switching characteristics of the front heated oxygen sensor are shifted, the
air fuel ratio is controlled to stoichiometric by the signal from the rear heated oxygen sensor. This
sensor is made of ceramic zirconia. The zirconia generates voltage from approximately 1V in richer
conditions to 0V in leaner conditions. Under normal conditions the rear heated oxygen sensor is not
used for engine control operation.
Page 9420
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4357
ECCS Component Parts Location
ECCS Component Parts Location
Recall - Seat Back Handle Replacement
Technical Service Bulletin # 98-035 Date: 980416
Recall - Seat Back Handle Replacement
Reference: NTB98-035
Date: April 16, 1998
VOLUNTARY SAFETY RECALL CAMPAIGN 1998 FRONTIER SEAT BACK HANDLE
REPLACEMENT
CAMPAIGN IDENTIFICATION NO: 98V-065
APPLIED VEHICLE: 1998 Frontier (D22) King Cab - Bucket Seat Only
APPLIED VINs: 1NGDD2***WC300001 to WC341732
APPLIED DATES: SOP to January 28, 1998
INTRODUCTION
In some 1998 Frontier King Cab trucks, certain types of frontal crashes may cause the front seat
belt on either seat to slip between the seat bottom finisher and the seat back plastic recliner
handle. If this occurs, the seat belt may be cut by the sharp edge of the metal portion of the recliner
lever. If the seat belt is completely severed by this occurrence, it could increase the risk of injury to
an occupant in a crash.
Owners of affected Frontiers will be notified by mail to return to their Nissan dealer to have each
seat back plastic recliner handle replaced with a new one with a different shape which prevents the
seat belt from slipping between the seat bottom finisher and the seat back recliner handle.
IDENTIFICATION NUMBER
Nissan has assigned identification number 98V-065 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
Approximately 23,500
DEALER RESPONSIBILITY
The dealer is responsible for checking Service Comm for the Campaign status on every vehicle
falling within the range of this campaign which enters the service department for any reason. This
includes vehicles purchased from the dealer, vehicles purchased from another dealer, and vehicles
purchased from private parties. Federal law requires that new vehicles in inventory which are the
subject of a safety recall must be corrected prior to sale. Failure to do so can result in civil penalties
by the National Highway Traffic Safety Administration. While this law only applies to new vehicles,
Nissan strongly encourages dealers to also correct any used trucks in their inventory which fall
within the range of this campaign prior to sale.
SERVICE PROCEDURE
1. Check Service Comm to verify that the procedure for this campaign has not already been
performed.
2. Park the vehicle on a level surface, turn OFF the ignition and set the parking brake.
Page 81
Main Harness (Part 2 Of 2)
Main Harness Layout Index
Page 7397
Engine Compartment
Engine Compartment
Diagram Information and Instructions
Absolute Pressure Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2988
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Checking Fluid Level
Power Steering Fluid: Testing and Inspection Checking Fluid Level
Check fluid level engine off. Check fluid level referring to the scale on the dipstick. Use "HOT"
range for fluid temperatures of 50 - 80° C (122 - 176° F). Use "COLD" range for fluid temperatures
of 0 - 30° C (32 - 86° F).
CAUTION: ^
Do not overfill.
^ Recommended fluid is Automatic Transmission Fluid (ATF) type Dexron III, or equivalent.
Page 4301
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5734
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Available Bearings, Clearance and ID Color
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 6967
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5106
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5816
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4795
Vehicle Speed Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Specifications
Brake Switch (Cruise Control): Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 5648
Description (Part 1 Of 2)
Page 8411
PARTS INFORMATION
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. Claims to Nissan for the repair of this
incident may be denied if the repairs are not performed exactly as outlined in this bulletin.
Service Procedure
NOTE:
DO NOT REPLACE the front driver's or passenger's seat belt assemblies before first using the
Service Procedure in this bulletin to:
^ Replace the missing/broken retaining button(s), and
^ Clean the "D" rings and install the fluorine resin tape on both seat belt assemblies.
Replace Missing/Broken Retaining Button
1. Make sure the seat belt is not 'twisted' by sitting in the seat and latching the seat belt. If the belt
is twisted, correct this before beginning button replacement.
2. Determine the original retaining button position.
CAUTION:
It is important that the replacement button be positioned on the seat belt exactly where the original
button was placed at the factory.
Recall 98V065000: Seat Belt May Get Cut/Sliced
Seat Belt: All Technical Service Bulletins Recall 98V065000: Seat Belt May Get Cut/Sliced
Year: 1998 Make: NISSAN TRUCK Model: FRONTIER Year of Recall: '98 Type of Report: Vehicle
Potential Number of Units Affected: 20000 Summary:
Vehicle Description: Light duty passenger trucks equipped with bucket seats. In certain frontal
crashes, the front seat belt can slip between the seat bottom finisher and the seat back plastic
recliner handle where it can be cut by the sharp edge of the metal portion of the recliner lever.
If the seat belt is completely severed, it can increase the risk of serious injury to an occupant in a
crash.
Dealers will replace the plastic handle on the end of the seat back reclining lever with a different
shape handle which will prevent the seat belt from slipping between the handle and the seat.
Owner notification is expected to begin during April 1998. Owners who take their vehicles to an
authorized dealer on an agreed upon service date and do not receive the free remedy within a
reasonable time should contact Nissan at 1-800-NISSAN-1 (1-800-647-7261). Also contact the
National Highway Traffic Safety Administration's Auto Safety Hotline at 1-888-DASH-2-DOT
(1-888-327-4236).
Page 5886
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8228
Passenger Compartment (Part 2 Of 2)
PASSENGER COMPARTMENT
Page 4255
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9515
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8347
3. Insert the "D" ring cleaning wire under the seat belt; between the belt and the "D" ring (see
Figure 3).
^ The "D" ring cleaning wire is provided in the kit that's listed in the Parts Information.
4. Pull the wire back and forth across the surface of the "D" ring.
^ Make sure all residue is removed from the "D" ring in all areas where it contacts the seat belt
NOTE:
^ It is very important to remove all residue build-up from the "D" ring.
^ If you don't remove all residue build-up, the fluorine resin tape won't stick properly.
Page 863
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9204
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5830
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 2391
Description (Part 1 Of 2)
Page 5651
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7023
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4187
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6082
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6613
Optional Splice
Example Diagrams
Page 2296
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 5765
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2543
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Testing and Inspection
Control Assembly: Testing and Inspection
1. Remove A/C & Heat control. 2. Loosen illumination bulbs and wire and pull off.
Page 5233
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5969
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4998
Page 1403
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
Page 425
Ground Distribution
Page 4497
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4879
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 8192
Comments regarding vacuum pump use:
^ The lubricant contained inside the vacuum pump is not compatible with the lubrication for R-134a
A/C systems.
^ The vent side of the vacuum pump is exposed to atmospheric pressure, causing the vacuum
pump lubricant to migrate out of the pump if the pump is switched oft after evacuation (vacuuming)
and there is no shut off valve between the pump and the hose.
^ To prevent the migration of vacuum pump lubricant into service hoses, it is necessary to use a
valve (which can be manually opened or closed) near the connection of the service hose to the
pump.
^ On a vacuum pump which is equipped with an isolation valve (usually part of the vacuum pump),
closing this valve will isolate the service hose from the pump.
^ For pumps without an isolation valve, be certain that the service hose is equipped with a manual
shut off valve near the pump end of the hose.
^ Hoses which contain an automatic shut off valve at the end of the service hose must be
disconnected from the vacuum pump to prevent the migration of lubricant; as long as the hose is
connected, the valve is open and lubricant may migrate (with pump off).
^ One-way valves which open when vacuum is applied and close under a no vacuum condition are
not recommended, because this valve may restrict the pump's ability to pull a deep vacuum.
Page 2729
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3813
Ground Distribution
Page 4664
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2662
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 9428
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1793
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Page 3828
EC-AAC/V-01 Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Circuit Diagrams
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve Circuit Connectors
Page 7394
Component Parts And Harness Connector Location
Specifications
Page 4627
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Paint - Contamination Identification and Repair
Technical Service Bulletin # 94-015 Date: 940208
Paint - Contamination Identification and Repair
Classification: BF94-003
Reference: NTB94-O15
Date: February 8, 1994
PAINT CONTAMINATION IDENTIFICATION AND REPAIR
This bulletin supersedes NTB93-058 / BF93-014 & NTB91-090 / BF91-023
APPLIED VEHICLE(S): ALL
SERVICE INFORMATION
The following procedures and materials have been found effective in removing iron particles, water
or chemical spots, scratches and/or swirl marks which have not penetrated the clear coat/color coat
of painted vehicle surfaces.
NOTE:
The updated repair procedures discussed in this Service Bulletin can be applied to all types of
Nissan clear coat materials, including the new Cross Link clear coat (NCLC)/hard clear coat.
*NOTE:
Measure the paint thickness before and after abrasive cleaning. If abrasive repair is not successful
on the first panel tested, it must be tried on each affected panel (hood, roof, trunk etc.,) to
determine which panel(s) must be re-clear coated or re-color/clear coated and which may be
repaired by abrasive means.
Finish Kare Product Distributors:
1726 Floradale Ave., El Monte, CA 91733 (213) 686-0462
Page 1440
PROCEDURE
Before checking front wheel alignment, make a preliminary unladen inspection. Unladed is fuel,
radiator coolant and engine oil full. Spare tire, jack, hand tools and mats in designated positions.
PRELIMINARY INSPECTION
1. Check tires for wear and proper inflation.
Page 109
CAUTION
4. Turn the ignition ON with the engine OFF.
^ The engine must be OFF (not running) during the reprogramming procedure.
^ For Hybrid vehicles, Make sure the dash warning lights are ON and the "READY" light is OFF.
^ Turn OFF all vehicle electrical loads such as exterior lights, interior lights, HVAC, blower, rear
defogger, audio, NAVI, seat heater, steering wheel
heater, etc.
CAUTION
5. Make sure the engine cooling fan(s) are not running.
If the cooling fans are running:
a. Turn the ignition OFF.
b. Wait for the engine to cool.
c. Turn the ignition ON (with engine OFF).
d. Make sure the engine cooling fans are not running.
6. Open / start ASIST on the C-III computer.
7. Select CONSULT Utilities, CONSULT-III, and Wait for the "Detecting VI/MI in progress"
message to clear.
Page 6405
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1907
Page 5252
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5234
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9133
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4324
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7038
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8952
Audible Warning Device: Description and Operation
MODELS WITH POWER DOOR LOCKS
The warning chime is integral with the smart entrance control unit, which controls its operation.
Power is supplied at all times:
^ through 7.5 A fuse [No. [28], located in the fuse block (J/B)]
^ to key switch terminal (1).
Power is supplied at all times:
^ through 10 A fuse (No. [39], located in the fuse and fusible link box)
^ to lighting switch terminal (11).
Power is supplied at all times:
^ through 30 A fusible link (letter [f], located in the fuse and fusible link box)
^ to circuit breaker terminal (1)
^ through circuit breaker terminal (2)
^ to smart entrance control unit terminal (1).
With the ignition switch in the ON or START position, power is supplied:
^ through 7.5 A fuse [No. [5], located in the fuse block (J/B)]
^ to smart entrance control unit terminal (11).
Ground is supplied to smart entrance control unit terminal (10) through body grounds (M14) and
(M68). When a signal, or combination of signals, is received by the smart entrance control unit, the
warning chime will sound.
Ignition key warning chime With the key in the ignition key cylinder, the ignition switch in the OFF or
ACC position, and the driver's door open, the warning chime will sound. A battery positive voltage
is supplied:
^ from key switch terminal (2)
^ to smart entrance control unit terminal (24).
Ground is supplied:
^ from door switch LH terminal (2)
^ to smart entrance control unit terminal (15).
Door switch LH terminal (3) is grounded through body grounds (M14) and (M68)
Light warning chime With ignition switch in the OFF or ACC position, driver's door open, and
lighting switch in 1ST or 2ND position, the warning chime will sound. A battery positive voltage is
supplied:
^ from lighting switch terminal (12)
^ to smart entrance control unit terminal (25).
Ground is supplied:
^ from door switch LH terminal (2)
^ to smart entrance control unit terminal (15).
Door switch LH terminal (3) is grounded through body grounds (M14) and (M68).
Seat belt warning chime The warning chime sounds for about 6 seconds when ignition switch is
turned from OFF to ON and seat belt is unfastened.
Ground is supplied:
^ from seat belt buckle switch terminal (1)
^ to smart entrance control unit terminal (21).
Seat belt buckle switch terminal (2) is grounded through body grounds (M14) and (M68).
MODELS WITHOUT POWER DOOR LOCKS
The warning chime is integral with the warning chime unit, which controls its operation. Power is
supplied at all times:
^ through 7.5 A fuse [No. [28], located in the fuse block (J/B)]
^ to key switch terminal (1).
Power is supplied at all times:
^ through 10 A fuse (No. [39], located in the fuse and fusible link box)
^ to lighting switch terminal (11).
Page 2286
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5539
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3651
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1259
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3826
Idle Up Control Valve: Electrical Diagrams
Idle Air CTRL Valve (IACV)-FICD Solenoid Valve
EC-FICD-01 IACV-FICD Solenoid Valve
Circuit Diagrams
IACV-FICD Solenoid Valve
IACV-FICD Solenoid Valve Circuit Connectors
Page 3105
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2985
Optional Splice
Example Diagrams
Page 6286
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1810
Wheel Bearing: Adjustments
PRELOAD ADJUSTMENT
Adjust wheel bearing preload after wheel bearing has been replaced or front axle has been
reassembled.
Adjust wheel bearing preload as follows:
1. Before adjustment, thoroughly clean all parts to prevent dirt entry.
2. Apply multi-purpose grease sparingly to the following parts:
- Threaded portion of spindle
- Contact surface between wheel bearing washer and outer wheel bearing
- Grease seal lip
- Wheel hub 18 - 23 grams (0.63 - 0.81 ounce)
3. Tighten wheel bearing lock nut with Tool to 78 - 98 Nm (58 - 72 ft. lbs.).
4. Turn wheel hub several times in both directions.
5. Loosen wheel bearing lock nut so that torque becomes 0 Nm (0 ft. lbs.).
6. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
7. Turn wheel hub several times in both directions.
8. Retighten wheel bearing lock nut with Tool to 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.).
9. Measure wheel bearing axial end play.
Axial end play: 0 mm (0 inch)
Page 4819
customer should then replace with another set of platinum tip plugs rather than the standard plugs
called out in the owners manual.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the claims coding table shown.
Page 8298
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Lock
Cylinder
Passenger Air Bag Deactivation Switch Lock Cylinder
REMOVAL
Passenger Air Bag Module Deactivation Switch Lock Cylinder
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector 3. Remove
instrument stay cover lower center. 4. Remove four screws and housing from instrument stay cover
lower center. 5. Remove clip from bottom of housing. 6. Remove passenger air bag deactivation
switch lock cylinder from front of housing.
INSTALLATION
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 4702
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7869
Page 2544
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 834
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 5121
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8729
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5922
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3017
Vehicle Speed Sensor: Description and Operation
COMPONENT DESCRIPTION
The vehicle speed sensor is installed in the transaxle. It contains a pulse generator which provides
a vehicle speed signal to the speedometer. The speedometer then sends a signal to the ECM.
Page 1722
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 2677
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4962
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5817
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1194
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 674
EC-RRO2-01 Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Diagrams
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Connectors
Response Monitoring
Page 4614
Optional Splice
Example Diagrams
Page 4714
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1029
Fuel Temperature Sensor: Electrical Diagrams
EC-TFTS-01 Tank Fuel Temperature Sensor (DTC: P0180)
Circuit Diagrams
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 774
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7064
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 637
Optional Splice
Example Diagrams
Page 506
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9171
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7795
Standard length "L" (4WD): 297.6 mm (11.72 inch)
CAUTION: Make sure that tie rod bars are screwed into tie rod tube more than 29 mm (1.14 inch)
(2WD), 22 mm (0.87 inch) (4WD).
INSPECTION
Ball Joint And Swivel Joint
1. Check joints for play. If ball or swivel stud is worn and play in axial direction is excessive or joint
is hard to swing, replace as a complete unit.
Swinging force (Measure point: Cotter pin hole) "A":
Ball joint: 15.7 - 147.1 N (3.5 - 33.1 lbs.) Rotating torque "B":
Ball joint: 0.5 - 4.9 Nm (4.3 - 43.4 inch lbs.)
Swivel joint: 1.0 - 5.9 Nm (8.7 - 52.1 inch lbs.)
Axial end play "C":
Ball joint: 0 mm (0 inch) Swivel joint: 0 mm (0 inch)
2. Check condition of dust cover. If it is cracked excessively replace dust cover. When replacing
dust cover, be careful not to damage it.
3. Lubricate joint with multi-purpose grease, if necessary.
4. When installing boot band with commercial service tool, be careful not to overexpand it.
CAUTION: Be careful not to apply grease or oil to taper of joint.
Idler Arm Assembly
- Check rubber bushing of idler arm for breakage, wear or play, and if necessary replace.
- Lubricate idler arm assembly with multi-purpose grease, if necessary.
Relay Rod And Tie-Rod
- Check tie rod and relay rod for breakage, bends or cracks, and replace with a new one if
necessary.
Steering Damper
- Check for oil leaking from damper, and replace if necessary.
Fixing Location
- Check fixing location (nuts and cotter pins) for looseness, play or breakage.
- When looseness or play is found, check for wear on tapered portion of joints, gear arm of idler
arm.
- When reassembling each joint, use new cotter pins.
Page 9151
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 5159
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4924
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5399
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2416
Type Of Standardized Relays (Part 2 Of 2)
General Procedures
Steering Gear: Service and Repair General Procedures
PRECAUTIONS FOR STEERING SYSTEM
- Before disassembly, thoroughly clean the outside of the unit.
- Disassembly should be done in a clean work area. It is important to prevent the internal parts from
becoming contaminated by dirt or other foreign matter.
- For easier and proper assembly, place disassembled parts in order on a parts rack.
- Use nylon cloths or paper towels to clean the parts; common shop rags can leave lint that might
interfere with their operation.
- Before inspection or reassembly, carefully clean all parts with a general purpose, non-flammable
solvent.
- Before assembly, apply a coat of recommended Automatic Transmission Fluid (ATF) type Dexron
III, or equivalent, to hydraulic parts. Petroleum jelly may be applied to O-rings and seals. Do not
use any grease.
- Replace all gaskets, seals and O-rings. Avoid damaging O-rings, seals and gaskets during
installation. Perform functional tests whenever designated.
Page 7690
2. Remove tie rod from knuckle arm with Tool.
DISASSEMBLY
Idler Arm Assembly
- Apply coat of multi-purpose grease to bushing.
- Press bushing into idler body, and insert shaft of idler bracket carefully until bushing protrudes.
Relay Rod And Tie-Rod
1. When tie rod ball joints and tie rod bar are separated, adjust tie rod length correctly.
NOTE: Adjustment should be done between ball stud centers.
2. Lock tie rod clamp nut so that ball joint on outer ball stud is as follows with respect to that on
inner ball stud.
Standard length "L" (2WD): 343.9 mm (13.54 inch)
Page 6502
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 3183
Ground Distribution
Page 647
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5862
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5578
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3257
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4332
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6291
Ground Distribution
Page 3507
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 157
Page 4327
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4247
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5360
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3716
Passenger Compartment (Part 1 Of 2)
Page 7211
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Page 8560
^ Customers must not use CDs that are warped, scratched, have abnormal edges or are otherwise
damaged (see Figure 3). Damaged CDs may cause the internal CD mechanism to jam or have
optical pick-up errors.
^ Customers must not use CDs if the label is loose or peeling as this can jam the audio CD system.
^ Instruct the customer to handle CDs carefully when inserting/removing them from the audio CD
system. Hold them by the edges and do not bend them. Always place them in the storage case
when they are not being used (played). This will ensure that CDs stay in top working order.
^ Inform the customer that additional CD care and cleaning instructions may be found in all Nissan
Owner's Manuals.
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 3988
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6323
Page 3450
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1908
Cylinder Block Components
Page 6365
Ground Distribution
Page 3226
Ground Distribution
Page 4040
34. CAN diagnosis will run again. When it reaches 51% and the icons light, click on the
"Duplication Test" icon.
35. When the screen in Figure 18 appears, click on All Erase.
36. Click on Yes (see Figure 18).
37. Use the scroll bar to scroll down the page and make sure all DTCs are erased.
^ For any DTCs that do not erase: diagnose, perform repairs, and erase DTCs.
^ Refer to the Service Manual as needed.
Reprogramming is finished. Continue with the Procedure below.
38. Close C-III, then turn the ignition OFF.
39. Make sure the throttle is released and your foot is NOT pressing either the brake or clutch
(M/T) pedal;
Page 3348
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 8867
3. Open the driver's side door and locate the Seat Back Recline Control Handle at the side of the
driver's seat (see Figure 1)
4. Remove the screw that retains the handle and save it for reuse.
5. Remove the old handle.
6. Install the replacement handle and secure with the original screw.
7. Open the passenger's side door and locate the Seat back Recline Control Handle at the side of
the passenger's seat.
8. Repeat steps 4 through 6 above.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Campaign Line (CM) claim using the claims coding table shown.
Page 3464
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3852
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3841
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1046
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4983
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Page 7336
Battery: Service and Repair Sulphation
A battery will be completely discharged if it is left unattended for a long time and the specific gravity
becomes less than 1.100. This may result in sulphation on the cell plates.
To determine if a battery has been "sulphated", note its voltage and current when charging it. As
shown in the figure, less current and higher voltage are observed in the initial stage of charging
sulphated batteries.
A sulphated battery may sometimes be brought back into service by means of a long, slow charge,
12 hours or more, followed by a battery capacity test.
Page 3540
Optional Splice
Example Diagrams
Page 7247
1. Place master cylinder onto brake booster and secure mounting nuts lightly. 2. Tighten mounting
nuts to 12 - 15 Nm (9 - 11 ft. lbs.) 3. Fill up reservoir tank with new brake fluid. 4. Plug all ports on
master cylinder with fingers to prevent air suction while releasing brake pedal. 5. Have driver
depress brake pedal slowly several times until no air comes out of master cylinder. 6. Fit brake
lines to master cylinder. 7. Tighten flare nuts to 12 - 15 Nm (9 - 11 ft. lbs.). 8. Bleed air from brake
system.
Page 1161
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7598
^ Center the front wheels on the turn plates.
^ Chock the left rear wheel.
Preliminary Checks:
3. Perform pre-alignment checks.
^ Tire condition (wear, partial wear, flaws, etc.)
^ Road wheel condition (damage and deformation)
^ Tire pressure
^ Inspect for visible damage to any suspension components
^ Wheel bearing axial play
^ Ball joints of suspension arms
^ Shock absorber operation and visual check for oil leakage
^ Condition of axle and suspension (check for bushing cracks and slack)
^ Vehicle weight
> Empty - no cargo, luggage, or passengers
> Fuel level is full
Page 3267
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5972
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9170
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5655
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3585
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3009
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 780
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7666
Page 6890
TRANSFER CASE DIAGNOSTIC TABLE
Axle Bearing (Rear) - Removal Kit/Service Procedure
Technical Service Bulletin # 01-031 Date: 010618
Axle Bearing (Rear) - Removal Kit/Service Procedure
Classification: TE01-008
Reference: NTB01-031
Date: June 18, 2001
ESSENTIAL TOOL: REAR AXLE BEARING REMOVAL KIT
APPLIED VEHICLES: 1986.5-1995 Pathfinder (WD21) 1996-2001 Pathfinder (R50) 1986.5-1997
Truck (D21) 1998-2001 Frontier (D22) 2000-2001 Xterra (WD22)
SERVICE INFORMATION
Page 2710
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 70
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 3880
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Accessory Delay Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 466
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2529
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Front Heated Oxygen Sensor
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor
COMPONENT DESCRIPTION
The front heated oxygen sensor is placed into the exhaust manifold. It detects the amount of
oxygen in the exhaust gas compared to the outside air. The front heated oxygen sensor has a
closed- end tube made of ceramic zirconia. The zirconia generates voltage from approximately 1V
in richer conditions to 0V in leaner conditions. The front heated oxygen sensor signal is sent to the
ECM. The ECM adjusts the injection pulse duration to achieve the ideal air-fuel ratio. The ideal
air-fuel ratio occurs near the radical change from 1V to 0V.
Page 3339
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4220
Ground Distribution
Page 4027
Attachment General Procedure
Page 3522
Intake Air Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 884
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4794
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3486
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7669
Standard length "L" (4WD): 297.6 mm (11.72 inch)
CAUTION: Make sure that tie rod bars are screwed into tie rod tube more than 29 mm (1.14 inch)
(2WD), 22 mm (0.87 inch) (4WD).
INSPECTION
Ball Joint And Swivel Joint
1. Check joints for play. If ball or swivel stud is worn and play in axial direction is excessive or joint
is hard to swing, replace as a complete unit.
Swinging force (Measure point: Cotter pin hole) "A":
Ball joint: 15.7 - 147.1 N (3.5 - 33.1 lbs.) Rotating torque "B":
Ball joint: 0.5 - 4.9 Nm (4.3 - 43.4 inch lbs.)
Swivel joint: 1.0 - 5.9 Nm (8.7 - 52.1 inch lbs.)
Axial end play "C":
Ball joint: 0 mm (0 inch) Swivel joint: 0 mm (0 inch)
2. Check condition of dust cover. If it is cracked excessively replace dust cover. When replacing
dust cover, be careful not to damage it.
3. Lubricate joint with multi-purpose grease, if necessary.
4. When installing boot band with commercial service tool, be careful not to overexpand it.
CAUTION: Be careful not to apply grease or oil to taper of joint.
Idler Arm Assembly
- Check rubber bushing of idler arm for breakage, wear or play, and if necessary replace.
- Lubricate idler arm assembly with multi-purpose grease, if necessary.
Relay Rod And Tie-Rod
- Check tie rod and relay rod for breakage, bends or cracks, and replace with a new one if
necessary.
Steering Damper
- Check for oil leaking from damper, and replace if necessary.
Fixing Location
- Check fixing location (nuts and cotter pins) for looseness, play or breakage.
- When looseness or play is found, check for wear on tapered portion of joints, gear arm of idler
arm.
- When reassembling each joint, use new cotter pins.
Page 1935
Crankshaft Main Bearing: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Page 3878
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4140
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2360
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8082
Inspection Flow
Page 794
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3640
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 2324
customer should then replace with another set of platinum tip plugs rather than the standard plugs
called out in the owners manual.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the claims coding table shown.
Page 969
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4197
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Page 2808
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4198
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 8702
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process. The side marker/tail/license lamps and
interior illumination will flash twice when this step is accurately completed.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful. The side marker/tail/license lamps
and interior illumination will flash twice when this step is accurately completed and programming is
successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming.
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
of the remote controllers you have programmed.
Page 2689
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4639
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1458
Page 8749
Type Of Standardized Relays (Part 2 Of 2)
Page 5900
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8570
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Specifications
Fuel Pressure: Specifications PRESSURE
PRESSURE
Fuel pressure with vacuum hose connected 235 kpa (34 psi)
Fuel pressure with vacuum hose disconnected 294 kpa (43 psi)
Page 7179
Brake Drum: Testing and Inspection
- Contact surface should be finished with No. 120 to 150 emery sandpaper.
- Maximum inner diameter: 296.5 mm (11.67 inch)
- Using a brake lathe, machine brake drum if it shows score marks, partial wear or stepped wear.
- After brake drum has been completely reconditioned or replaced, check drum and shoes for
proper contact pattern.
Page 2000
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 6957
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9373
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8743
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4068
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6128
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5470
^ Some 2002 models use a new type EVAP System Pressure Sensor with different operational
characteristics.
^ Refer to the EC section of the appropriate Service Manual to determine which type sensor your
vehicle is equipped with.
^ Models that use the new type EVAP System Pressure Sensor will have a voltage reading that
varies with changes in the "barometric" pressure (atmospheric air pressure that changes with
altitude and/or weather conditions).
^ The usual voltage range obtained in step 4 with the new type EVAP System Pressure Sensor is
between 3.8 and 4.2 volts. Because this range will vary with barometric pressure, it is best to
compare readings with a known good vehicle.
^ Some 2002 models use the earlier type EVAP System Pressure Sensor (same as used on 2001
and earlier models). The normal range for the earlier type is 3.32 to 3.40 volts and does not vary
with barometric pressure.
5. Start the engine. Observe the EVAP System Pressure Sensor voltage.
^ If the value has reduced 0.04 volts or more from the reading obtained in step 4, the EVAP
Canister Purge Volume Control Solenoid Valve may be leaking.
^ Refer to the EC section of the appropriate Service Manual for inspection procedures of the EVAP
Canister Purge Volume Control Solenoid Valve, DTC P1444.
NOTE:
The EVAP Canister Purge Volume Control Solenoid Valve is located in the engine compartment.
6. Perform the DTC Confirmation Procedure for DTC P1491. Refer to the EC section of the
appropriate Service Manual for confirmation procedure steps and driving conditions.
7. If the DTC confirmation results are NG, do the following:
a. Refer to the EC section of the appropriate Service Manual to determine if the vehicle is equipped
with On-Board Refueling Vapor Recovery (ORVR).
^ If the vehicle has ORVR, go to b.
^ If the vehicle does NOT have ORVR, go to step 8.
b. Place a clamp on the Refueling EVAP Vapor Line near the fuel tank. The Refueling EVAP Vapor
Line is the larger hose (see figure 2). Use hose clamp (3M P/N # 08556-1), found in Fuel Injector
Cleaning Kit J-45701, or equivalent.
c. Retry DTC Confirmation Procedure
d. If the result is now OK, the Refueling Control Valve may be leaking and should be inspected.
Refer to the EC section of the appropriate
Page 4288
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8003
Axle Nut: Service and Repair Specifications
TIGHTENING SPECIFICATIONS
Auto Lock Knob ...................................................................................................................................
.................................. 25 - 34 Nm (18 - 25 ft. lbs.) Lock Washer Screw
.................................................................................................................................................... 1.2 1.8 Nm (10.4 - 15.7 inch lbs.) Manual Lock Knob ...............................................................................
................................................................................. 25 - 34 Nm (18 - 25 ft. lbs.)
Page 4963
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Specifications
Brake Fluid: Specifications
Fluid Type Nissan Brake Fluid or DOT 3
Page 4499
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7547
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Page 2513
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5641
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 7458
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 282
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9157
Optional Splice
Example Diagrams
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Locations
Daytime Running Lamp Control Unit: Locations
Engine Compartment
Engine Compartment
Page 701
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4350
3. Loosen the sensor approximately 10 degrees.
4. Spray with rust penetrant again for 2 to 3 seconds.
5. Tighten the sensor 10 degrees, then loosen the sensor 10 degrees.
^ Repeat this motion several times until the sensor begins to turn more easily.
6. Continue the tightening/loosening motion while gradually unscrewing the sensor. Stop when the
sensor will not unscrew any further.
7. Spray with rust penetrant again for 2 to 3 seconds.
8. Repeat steps 6 and 7 until the sensor is removed.
Page 156
Engine Control Module: Testing and Inspection
ECM HARNESS CONNECTOR TERMINAL LAYOUT
Page 2767
Ground Distribution
EVAP Vent Control Valve - DTC'S Stored in Memory
Canister Vent Valve: Technical Service Bulletins EVAP Vent Control Valve - DTC'S Stored in
Memory
Classification: EC00-015
Reference: NTB00-060
Date: July 17, 2000
EVAP VENT CONTROL VALVE DIAGNOSTICS
APPLIED VEHICLES: All 1996 - later Nissan vehicles
SERVICE INFORMATION
If an applied vehicle has one (or more) of the following DTCs stored in Self Diagnosis, use the
Service Procedure below to check the operation of the EVAP vent control valve.
IMPORTANT NOTES:
^ If DTC(s) other than the ones listed are found stored in Self Diagnosis, the EVAP vent control
valve is NOT the cause of the incident.
^ If the EVAP vent control valve passes the tests outlined in the following Service Procedure, the
cause of the incident is NOT the EVAP vent control valve.
SERVICE PROCEDURE
Perform the following checks (depending on the model year of the vehicle) to determine if the
EVAP vent control valve needs to be replaced.
^ If the EVAP vent control valve asses all of the following checks, the cause of the incident is NOT
the EVAP vent control valve. Refer to the appropriate section of the service manual for the
diagnostic procedure to resolve the incident.
^ If the EVAP vent control valve does not pass all of the following checks, perform repairs as
necessary.
1996-97 Vehicles
1. Check the operation of the EVAP vent control valve using a 12VDC battery source as follows:
Page 5622
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6643
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
MIL ON - DTC P0420 Set/Exhaust Rattle
Catalytic Converter: All Technical Service Bulletins MIL ON - DTC P0420 Set/Exhaust Rattle
Classification: EC00-017
Reference: NTB00-058
Date: July 12, 2000
1998 FRONTIER; MIL "ON" WITH DTC P0420 STORED AND/OR EXHAUST RATTLE
APPLIED VEHICLE: 1998
Frontier (D22)
Federal Emissions Specification ONLY
APPLIED VIN: up to 1N6DD26Y9WC347717
APPLIED DATE: up to 2/13/98
APPLIED ENGINE: KA24DE
SERVICE INFORMATION
If an Applied Vehicle has a MIL "ON" with DTC P0420 (Three-Way Catalyst Function) stored in the
ECM and/or exhaust rattle noise, the vehicle may have poor three-way catalyst function. This is
usually the result of misfire. In severe cases, the catalyst structure may collapse resulting in an
exhaust rattle.
When proper diagnosis confirms that the three-way catalyst in an Applied Vehicle requires
replacement, regardless of the root cause, also install platinum tip spark plugs specified in the
Parts Information section. Platinum tip plugs provide enhanced misfire resistance under extreme
driving conditions.
Use the following service procedure to resolve the incident, should it occur.
NOTE:
If the three-way catalyst's honeycomb internal structure has collapsed, the debris will typically be
trapped in the exhaust piping and muffler, causing an exhaust rattle.
SERVICE PROCEDURE
1. Perform Self-Diagnosis using CONSULT-II. Print and attach the Freeze Frame data to the repair
order.
2. If there is a DTC stored in addition to P0420, diagnose and repair the additional DTC(s) first,
using the appropriate Service Manual procedure(s).
3. After diagnosing and repairing the vehicle for the non-P0420 DTC, or if P0420 is the only DTC,
use the appropriate Service Manual to determine the incident cause, and repair it.
NOTE:
Always check the secondary ignition circuit. Check distributor cap for moisture, tracking or other
indicators of insulator degradation that may cause a misfire under load.
4. If diagnosis has determined that replacement of the three-way catalyst is also necessary,
replace it and install four new platinum tip spark plugs from the Parts Information section.
NOTE:
If the catalyst is being replaced, inspect its internal honeycomb structure by looking into each end
of the converter. If the structure has collapsed or deteriorated severely, check the exhaust piping
and muffler for debris. Remove all debris from the exhaust system. Replace the muffler as needed.
5. Make a note in the vehicle maintenance logs and notify the customer that platinum tip spark
plugs have been installed, and that this is an upgrade from that listed in the owners manual. The
maintenance interval for platinum tip spark plugs is 60,000 miles and Nissan recommends that the
Page 3926
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1456
Page 4082
Page 6045
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4755
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Specifications
Page 7068
Ground Distribution
Page 9518
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3742
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3940
Ground Distribution
Page 4969
Canister Vent Valve: Connector Views
Evaporation Emission Canister Vent Control Valve (EVAP) (Circuit) (DTC: P0446)
Evaporative Emission (EVAP) Canister Vent Control Valve (Circuit) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2088
Timing Chain: Diagrams
PART 1 OF 2
Page 6615
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9173
Ground Distribution
Page 3511
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1120
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Diagram Information and Instructions
Fuel Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7028
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6539
13. Remove the shifter assembly by sliding it backward, then down slightly, then forward (see
Figure 9).
14. Apply white grease to the end of the main tube and install the new shifter assembly by inserting
the main tube over the knob at the top of the steering column bracket (see Figure 9).
CAUTION:
DO NOT get white grease on the interior upholstery.
15. Install the (2) grade 7 bolts (identified by the 7 on the head) to attach the A" control device to
the steering column (refer to Figure 8). Bolt torque specification: 64 to 80 in/lb (0.86 to 1.10 kg/m).
16. Check to make sure no wires are pinched or trapped between the shifter assembly and the
steering column.
17. Connect the All cable to the A/T shifter assembly (refer to Figure 7).
18. Connect the brake pedal interlock solenoid harness located under the steering column
assembly (refer to Figure 6).
19. Connect the key lock rod from the All shifter assembly and insert the pin clip (refer to Figure 5).
20. Install the spring clip from the parts kit onto the A/T shifter assembly (see Figure 10).
21. Apply white grease to the pivot end and shaft of the shift lever and install it into the A/T shifter
assembly. Insert the clevis pin from the steering column side to secure the lever and then install the
pin clip. Secure the O/D switch wire to the main tube with the tie wrap from the parts kit and
reposition the rubber boot over the lever connector. Ensure the O/D switch wire is routed through
the notch on the boot (refer to Figures 4 & 5).
CAUTION:
DO NOT get white grease on the interior upholstery.
22. Connect the O/D switch wire connector (on the top of the steering column) and install it on the
mounting bracket (refer to Figure 4). If the bracket was broken during removal, use a tie wrap (not
provided) to secure the overdrive switch wire connector to the steering column. Ensure that it does
not rattle.
Page 1039
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3178
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5454
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 5867
Ignition Ballast Resistor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3532
Intake Air Temperature Sensor: Electrical Diagrams
EC-IATS-01 Intake Air Temperature Sensor (DTC: P0110)
Circuit Diagrams
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Page 3707
21. When the screen in Figure 10 appears, ECM reprogramming is complete.
NOTE:
If you can't print the above screen:
a. Select the Print icon.
b. Select Save.
c. Select OK.
A copy of the screen is now saved in the Toughbook(R) PC.
NOTE:
If you saved a copy of the screen in Figure 10 and need to print it at a later date, you can find it in
the following file location:
At the bottom left corner of the computer screen click on Start.
Page 6278
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9512
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6189
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1127
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Restraints - Seat Belt Retract Slowly
Seat Belt Retractor: Customer Interest Restraints - Seat Belt Retract Slowly
Classification: RS01-001B
Reference: NTB01-005B
Date: November 12, 2009
"D" RING RESIDUE CAN CAUSE SLOW SEAT BELT RETRACTION
This bulletin amends NTB01-005a. Please discard all previous versions of this bulletin.
APPLIED VEHICLES
IF YOU CONFIRM
Seat belt retraction of front seat belt(s) is slow, caused by "residue" build-up on the "D" ring(s).
ACTION
Use the "D" ring cleaning and refurbishing kit to:
^ Clean the residue off of the "D" rings.
^ Apply fluorine resin tape to the "D" rings.
IMPORTANT:
The purpose of "ACTION" (above) is to give you a quick idea of the work you will be performing.
You MUST closely follow the entire Service Procedure as it contains information that is essential to
successfully completing the repair.
Page 3733
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9172
Ground Distribution
Page 2129
Page 2499
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4194
Type Of Standardized Relays (Part 2 Of 2)
Page 5672
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Specifications
Page 6629
Ground Distribution
Page 9380
EL-DTRL-01 Headlamp Wiring Diagram (For Canada) (Part 1 Of 3)
Page 6954
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6910
Differential Fluid - M/T: Fluid Type Specifications
Differential Carrier Gear Oil
Standard differential gear ....................................................................................................................
............................................................. API GL-5 Limited-slip differential gear LSD) ..........................
...................................................................................................................................... *API GL-5
*Note: Use only LSD gear oil API GL-5 and SAE 80W-90 approved for Nissan LSD. SAE 90 is
acceptable in ambient temperatures above -18°C (0° F).
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 6980
Fluid - Transfer Case: Fluid Type Specifications
Specified Type: a)Nissan Matic "D" or equivalent Automatic Transmission Fluid [1] b)API GL-4 [2]
[1]Dexron III/Mercon or equivalent may also be used. Outside the continental United States and
Alaska contact an Infiniti dealership for more information regarding suitable fluids, including
recommended brand(s) of Dexron III/Mercon Automatic Transmission Fluid.
[2]Specified viscosity at ambient temperature ranges:
Below 10°C (50°F) ...............................................................................................................................
................................................................. SAE 75W Below 30°C (86°F) ............................................
.................................................................................................................................................... SAE
80W Below 40°C 104°F) .....................................................................................................................
............................................... SAE 75W-90/SAE 80W-90 Between 30°C (86°F) and -10°C (14°F) ...
.............................................................................................................................................................
SAE 85W Between 40°C (104°F) and 0°C (32°F) ...............................................................................
...................................................................................... SAE 90 Above 10°C (50°F) ..........................
..............................................................................................................................................................
.......... SAE 140
NOTE: 75W-90 is preferable for ambient temperatures below 40°C (104°F)
Page 7134
1. Insert piston seal into groove on cylinder body. 2. With piston boot fitted to piston, insert piston
boot into groove on cylinder body and install piston. 3. Properly secure piston boot.
CAUTION: ^
Secure dust seal properly.
^ Lubricate with new brake fluid before installing plastic pistons into cylinder body.
Page 202
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5033
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Ignition - Distributor Rotor Replacement
Ignition Rotor: Technical Service Bulletins Ignition - Distributor Rotor Replacement
Classification: EC97-002a
Reference: NTB97-004a
Date: May 19, 1999
DISTRIBUTOR ROTOR REPLACEMENT
This amended version of NTB97-004 adds B14, D21, WD22, and L30 information to the Applied
Vehicles section. Please discard all paper copies of NTB97-004.
APPLIED VEHICLES: 1995-1999 Sentra (B14) - GA16DE Engine only 1995-1998 200SX (B14) GA16DE Engine only 1990-97 Truck (D21) - KA24 Engines only 1998-2000 Frontier (D22) KA24DE Engine only 1998-2000 Altima (L30) - All 2000 Xterra (WD22) - KA24DE Engine only
SERVICE INFORMATION Distributor rotors are now available as replacement parts for the
vehicles listed in the Applied Vehicles section of this bulletin. Order them as P/N 22157-4B000.
CAUTION:
The rotor hold-down screw securing the distributor rotor to the distributor shaft must be torqued to
32 +/- 3 in-lb (37 +/- 3 kg-cm). If not secured to the proper torque the rotor may come loose causing
the engine to stop without warning.
PARTS INFORMATION
Page 6097
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9241
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7571
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 4444
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Page 131
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2667
Intake Air Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4315
Description (Part 1 Of 2)
Audio - Front Door Speaker Buzz Noise
Speaker: Customer Interest Audio - Front Door Speaker Buzz Noise
Classification: EL98-002
Reference: NTB98-031
Date: April 15, 1998
1998 FRONTIER DOOR SPEAKER "BUZZ" NOISE REPAIR
APPLIED VEHICLE: All 1998 Frontier (with factory installed audio system)
SERVICE INFORMATION
If a 1998 Frontier exhibits a "buzz" noise at the door speakers when the radio volume is increased,
use the following service procedure to minimize or eliminate the "buzz" noise.
Note:
Apply the service procedure listed below to both doors.
SERVICE PROCEDURE
1. Remove the front door finisher.
2. Remove the speaker assembly from the door (see Figure 1).
Page 610
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4521
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 3629
Ground Distribution
Page 6564
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1651
Power Steering Fluid: Testing and Inspection Checking Fluid Leakage
Check lines for proper attachment, leaks, cracks, damage, chafing or deterioration. 1. Run engine
between idle speed and 1,000 rpm.
NOTE: Make sure temperature of fluid in reservoir tank rises to 60 - 80° C (140 - 176° F).
2. Turn steering wheel right-to-left several times. 3. Hold steering wheel at each "lock" position for
five seconds and carefully check for fluid leakage.
CAUTION: Do not hold steering wheel at lock position for more than 15 seconds.
4. If fluid leakage from any line is noticed, loosen flare nut and then retighten.
CAUTION: Do not overtighten connector as this can damage O-ring, washer and connector.
5. If fluid leakage from power steering pump is noticed, check power steering pump. 6. If fluid
leakage from power steering gear is noticed, check power steering gear.
Engine - Timing Chain/Front Cover Revised Procedure
Technical Service Bulletin # 98-094 Date: 981115
Engine - Timing Chain/Front Cover Revised Procedure
Classification: EM98-006
Reference: NTB98-094
Date: November 15, 1998
FRONTIER TIMING CHAIN/FRONT COVER REVISED SERVICE PROCEDURE
APPLIED ENGINE: KA24DE
PARTS INFORMATION
CLAIMS INFORMATION
Please reference the "Revision B" pages of the Nissan "1992-1999 Warranty Flat Rate Information
Manual", Section "AG", Op Codes AG14AA, AG143A, AG144A, AG22AA, and AG24AA. You will
note that the descriptions and Flat Rate Times applicable to the D22 vehicle for these Op Codes
have been revised to reflect this new procedure. Also note that Op Codes AG5OAA and AG504A
have been deleted.
Service Information
A revised service procedure for the engine front cover/timing chain has been adopted for the
KA24DE. It is no longer recommended to remove the cylinder head when removing the timing
chain/front cover(s). Utilize the following steps when servicing the front cover, timing chain, guides
or tensioner(s).
Caution
^ After removing the timing chain, do not turn the crankshaft and camshaft separately or the valves
will strike the piston heads.
^ When installing chain tensioners or other sliding parts, lubricate contacting surfaces with new
engine oil.
^ Apply new engine oil to bolt threads and seat surfaces when installing the camshaft sprockets
and the crankshaft pulley.
^ Do not spill engine coolant on the drive belts.
^ Please refer to the Service Manual for the correct tightening torque.
Removal of Upper Timing Chain
1. Remove the air cleaner assembly,
2. Remove the spark plug wires.
3. Set # 1 piston at TDC on its compression stroke.
4. Remove vacuum hoses, electrical harness, connectors, and harness clamps.
5. Remove the power steering belt.
6. Remove the power steering pump and position it to the side. Remove the idler pulley and
bracket as well.
7. Remove the rocker cover.
8. Remove camshaft sprocket cover.
Page 3049
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2457
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Front Heated Oxygen Sensor
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor
COMPONENT INSPECTION Front heated oxygen sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "MANU TRIG" and "HI
SPEED" in "DATA MONITOR" mode with CONSULT, and select "FR O2 SENSOR" and "FR O2
MNTR". (3) Hold engine speed at 2,000 rpm under no load during the following steps. (4) Touch
"RECORD" on CONSULT screen. (5) Check the following.
- "FR O2 MNTR" in "DATA MONITOR" mode changes from "RICH" to "LEAN" to "RICH" 5 times in
10 seconds. 5 times (cycles) are counted as shown below: cycle | 1 | 2 | 3 | 4 | 5 | FR O2 MNTR
R-L-R-L-R-L-R-L-R-L-R R = "FR O2 MNTR", "RICH" L = "FR O2 MNTR", "LEAN"
- "FR O2 SENSOR" voltage goes above 0.6V at least once.
- "FR O2 SENSOR" voltage goes below 0.35V at least once.
- "FR O2 SENSOR" voltage never exceeds 1.0V.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (50) (sensor signal) and (32) (ECM ground). (3) Check the following with engine
speed held at 2,000 rpm constant under no load.
- Malfunction indicator lamp goes on more than 5 times within 10 seconds in Diagnostic Test Mode
II (FRONT HEATED OXYGEN SENSOR MONITOR).
- The maximum voltage is over 0.6V at least one time.
- The minimum voltage is below 0.35V at least one time.
- The voltage never exceeds 1.0V.
Page 3942
Oxygen Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Disc Backing Plate
Brake Rotor/Disc: Specifications Disc Backing Plate
TIGHTENING SPECIFICATIONS
Baffle Plate To Knuckle
............................................................................................................................................. 3.4 - 5.9
Nm (30.4 - 52.2 inch lbs.)
Page 8402
PARTS INFORMATION
CLAIMS INFORMATION
SERVICE PROCEDURE
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 2).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 2).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
Page 655
Oxygen Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 905
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4157
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 952
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 538
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2396
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Locations
Neutral Start Relay (Inhibitor Relay): Locations
Engine Compartment
Engine Compartment
Page 2554
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 8191
Comments regarding R-134a manifold gauge set:
^ Be certain that the gauge face indicates R134a or 134a.
^ Be certain that the manifold gauge set has the 1/2" - 16 ACME threaded connections for service
hoses, ensuring that only R-134a service hoses are used.
^ Be certain that no refrigerants other than R-134a (along with only specified lubricants) are used
with the manifold gauge set.
Page 7368
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7213
Page 2971
Page 5791
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 946
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 4221
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9434
License Plate Lamp: Electrical Diagrams
EL-TAIL/L-01 Parking, License, And Tail Lamps Wiring Diagram (Part 1 Of 2)
Page 2150
Page 6641
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 3054
EGR Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The EGR temperature sensor detects temperature changes in the EGR passage way. When the
EGR valve opens, hot exhaust gases flow, and the temperature in the passage way changes. The
EGR temperature sensor is a thermistor that modifies a voltage signal sent from the ECM. This
modified signal then returns to the ECM as an input signal. As the temperature increases, EGR
temperature sensor resistance decreases. This sensor is not used to control the engine system. It
is used only for the on board diagnosis.
Page 4120
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1723
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4608
Control Units/Module
F29 Control Units/Module
Page 9360
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2821
Ground Distribution
Page 8413
3. Slide the seat belt latch plate to a position higher than the button position (i.e., between the
button location and the shoulder anchor loop). See Figure 2.
4. Find the original button position (hole). Then insert the button half (with the center pin) into the
belt. Go in from the plastic side of the latch plate (see Figure 2).
5. On the opposite side of the belt (on the metal side of the latch plate) fit the button half with the
hole over the protruding pin (see Figure 2 & 3).
6. Use an adjustable wrench with smooth jaws. Place it as shown in Figure 4, then finger tighten
the jaws.
Page 9465
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5589
- Check plunger for seizing or sticking.
- Check for broken spring.
Page 6322
Page 4389
Circuit Connectors
Response Monitoring
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 2307
Water Pump: Service and Repair
CAUTION: When removing water pump assembly, be careful not to get coolant on drive belts.
- Water pump cannot be disassembled and should be replaced as a unit.
- After installing water pump, connect hose and clamp securely, then check for leaks using radiator
cap tester.
REMOVAL
1. Drain coolant from engine. 2. Remove fan coupling with fan. 3. Remove power steering pump
drive belt, generator drive belt and A/C compressor drive belt. 4. Remove water pump.
INSPECTION
- Check body assembly for rust or corrosion.
- Check for rough operation due to excessive end play.
INSTALLATION
1. Use a scraper to remove liquid gasket from water pump.
- Also remove traces of liquid gasket from mating surface of cylinder block.
Page 4180
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8734
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 124
Passenger Compartment (Part 1 Of 2)
Locations
Cruise Control Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 6478
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5203
Type Of Standardized Relays (Part 2 Of 2)
Page 5072
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Specifications
Pitman Arm: Specifications
TIGHTENING SPECIFICATIONS
Mounting Nut:
At Relay Rod .......................................................................................................................................
............................. 54 - 98 Nm (40 - 72 ft. lbs.) At Steering Gear
....................................................................................................................................................... 235
- 265 Nm (174 - 195 ft. lbs.)
Page 5342
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1079
Optional Splice
Example Diagrams
Page 5333
Overall inspection sequence
Page 7637
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5014
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 5067
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7744
Ground Distribution
Page 192
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1349
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
Page 5694
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5570
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7574
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
Page 2231
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2373
13. Select Confirm
14. Select Diagnosis
15. Wait for ECM Diagnosis to complete.
Page 5634
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Diagram Information and Instructions
Headlamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6198
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Instruments - Fuel Gauge Inaccurate
Speedometer Module: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 5215
EGR Valve: Testing and Inspection
COMPONENT INSPECTION EGR Valve
- Apply vacuum to EGR vacuum port with a hand vacuum pump. EGR valve spring should lift.
- Check for sticking. If NG, repair or replace EGR valve.
Page 745
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6298
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 599
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8850
3. Install one-inch squares of 1/4-inch-thick, adhesive-backed foam tape (3M Scotch-foam" 4504 #
021200-03320 or equivalent) to the headliner panel near the sunroof opening. Place the one-inch
squares every five inches around the sunroof opening, 1/8 inch from the edge of the headliner
panel (see Figure 5).
4. Reinstall the sunroof weather strip.
5. Reinstall the sunroof panel and inner shade panel.
6. Road test the vehicle to confirm the incident noise is resolved.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 278
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 5767
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6421
Torque Converter Clutch Solenoid: Electrical Diagrams
EC-LKPU-01 Torque Converter Clutch Solenoid Valve (DTC: P1775)
Circuit Diagrams
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Page 9556
Tail Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5685
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2686
Ground Distribution
Page 5936
Ground Distribution
Page 415
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6235
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6383
Torque Converter Clutch Solenoid: Testing and Inspection
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 6304
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 397
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4364
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 1286
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Diagram Information and Instructions
Engine Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7071
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Diagram Information and Instructions
Engine Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1143
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 5144
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7556
Page 7617
PROCEDURE
Before checking front wheel alignment, make a preliminary unladen inspection. Unladed is fuel,
radiator coolant and engine oil full. Spare tire, jack, hand tools and mats in designated positions.
PRELIMINARY INSPECTION
1. Check tires for wear and proper inflation.
Page 1852
- Remove bearing outer races with suitable brass bar.
INSPECTION
Thoroughly clean wheel bearings and wheel hub.
Wheel Bearings Make sure wheel bearings roll freely and are free from noise, cracks, pitting and wear.
Wheel Hub Check wheel hub for cracks by using a magnetic exploration or dyeing test.
ASSEMBLY
1. Install bearing outer race with Tool until it seats in hub.
2. On models with ABS, install the sensor rotor using suitable drift and press.
Always replace sensor rotor with new one. Pay attention to the direction of front sensor rotor as
shown in figure.
3. Pack multi-purpose grease in wheel hub and hub cap.
Page 7676
c. Remove ball joint tightening nuts.
Support lower link with jack.
d. Remove knuckle spindle from upper and lower links.
INSPECTION
Knuckle Spindle Check knuckle spindle for deformation, cracks and other damage by using a magnetic exploration
or dyeing test.
Bearing Spacer (2WD) Check bearing spacer for damage.
Needle Bearing (4WD) Check needle bearing for wear, scratches, pitting, flaking and burn marks.
INSTALLATION
1. Apply multi-purpose grease and install needle bearing into knuckle spindle. (4WD)
CAUTION: Make sure that needle bearing is facing in the proper direction.
2. Install knuckle spindle to upper and lower ball joints with lower link jacked up.
CAUTION: Make sure that oil and grease do not come into contact with tapered areas of ball joint,
knuckle spindle and threads of ball joint.
3. Connect tie-rod to knuckle spindle.
4. After installing knuckle spindle, adjust wheel bearing preload.
Refer to Wheel Bearing.
Page 3731
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1116
Description (Part 1 Of 2)
Page 3754
Page 7361
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4970
Canister Vent Valve: Electrical Diagrams
EC-VENT/V-01 Evaporation Emission Canister Vent Control Valve (EVAP) (Circuit) (DTC: P0446)
Circuit Diagrams
Evaporation Emission Canister Vent Control Valve (EVAP) (Circuit) (DTC: P0446)
Evaporative Emission (EVAP) Canister Vent Control Valve (Circuit) Circuit Connectors
Page 1298
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6769
Page 4621
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 2514
Type Of Standardized Relays (Part 2 Of 2)
Page 5688
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7758
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Page 5146
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6998
Shift Linkage: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Transfer Case; Service and Repair; Transfer Case Overhaul.
Page 1786
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Specifications
Suspension Travel Bumper: Specifications
TIGHTENING SPECIFICATIONS
Mounting Bolts .....................................................................................................................................
................................. 16 - 22 Nm (12 - 16 ft. lbs.)
Page 6201
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1016
Ground Distribution
Page 1274
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 270
Optional Splice
Example Diagrams
Page 3871
Description (Part 1 Of 2)
Page 880
Type Of Standardized Relays (Part 2 Of 2)
Page 1206
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1241
Safing Sensor: Service and Repair
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the Safing Sensor requires replacement of the Diagnosis Sensor Unit. Refer to
Diagnosis Sensor Unit / Service and Repair.
Testing and Inspection
Blower Motor Switch: Testing and Inspection
Check continuity between terminals at each position.
Page 7020
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Fuel Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8986
Cigarette Lighter: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4430
Ground Distribution
Page 1081
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6319
Page 5599
Fuel Pump Relay: Connector Locations
Main Harness (Part 1 Of 2)
Page 5665
Fuel Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 9500
Turn Signal Switch: Service and Repair
- Each switch can be replaced without removing combination switch base.
COMBINATION SWITCH BASE REMOVAL
- To remove combination switch base, remove base attaching screws.
- Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Diagram Information and Instructions
Cigarette Lighter: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5798
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 5739
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5530
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5775
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 154
Type Of Standardized Relays (Part 2 Of 2)
Page 3807
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6622
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4450
Optional Splice
Example Diagrams
Page 1412
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 446
Description (Part 1 Of 2)
Page 158
Page 9161
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7589
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 4496
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2517
Absolute Pressure Sensor: Description and Operation
COMPONENT DESCRIPTION
The absolute pressure sensor is connected to the MAP/BARO switch solenoid valve by a hose.
The sensor detects ambient barometric pressure and intake manifold pressure and sends the
voltage signal to the ECM. As the pressure increases, the voltage rises.
Page 9336
Refer to the "Diagnosis/Repair Flow Chart" shown to diagnose and resolve this incident, should it
occur.
SERVICE PROCEDURE
Headlight Wire Harness Connector Replacement Procedure
1. Disconnect the vehicle-side wire harness connector from the headlight bulb.
2. Cut the vehicle wire harness about an inch back from the headlight harness connector.
3. Cut the wires of the replacement connector to the appropriate length.
4. Strip the end of each wire (on the vehicle wire harness side and on the replacement connector
wires).
Page 7718
Power Steering Pump: Testing and Inspection
Before starting, check belt tension, drive pulley and tire pressure.
1. Set Tool. Open shut-off valve. Then bleed air. 2. Run engine at idle speed or 1,000 RPM. Make
sure fluid temperature in reservoir tank reaches 60 - 80—C (140 - 176° F).
WARNING: WARM UP ENGINE WITH SHUT-OFF VALVE FULLY OPENED. IF ENGINE IS
STARTED WITH SHUT-OFF VALVE CLOSED, FLUID PRESSURE IN THE POWER STEERING
PUMP WILL INCREASE TO MAXIMUM. THIS WILL RAISE THE FLUID TEMPERATURE
ABNORMALLY.
3. Check pressure with steering wheel fully turned to left and right positions with engine idling at
1,000 RPM.
Power steering pump maximum operating pressure:
7,649 - 8,238 kPa (1,109 - 1,194 psi) when idling
CAUTION: Do not hold the steering wheel in a locked position for more than 15 seconds.
- If pressure reaches maximum operating pressure, system is OK.
- If pressure increases above maximum operating pressure, check power steering pump flow
control valve.
4. If power steering pressure is below the maximum operating pressure, slowly close shut-off valve
and check pressure again.
CAUTION: Do not close shut-off valve for more than 15 seconds.
- If pressure increases to maximum operating pressure gear is damaged.
- If pressure remains below maximum operating pressure, pump is damaged.
5. After checking hydraulic system, remove Tool and add fluid as necessary. Then completely
bleed air out of system.
Page 1670
Page 2609
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9553
Ground Distribution
Page 2100
4. Use a suitable tool, such as a small pry bar or large screwdriver (approximately 12 inches long).
Pry the cam bracket as shown in Figure 2, while applying approximately 3 pounds (1.4 kg.) of force
to the end of the tool. This will produce approximately 30 pounds (13.6 kg) of force against the cam
bracket (shown schematically in Figure 1).
CAUTION:
The amount of movement of the cam bracket is so small that no noticeable movement will be
observed. Do not apply excessive force to the cam bracket.
5. While holding pressure (approximately 3 pounds, 1.4 kg) on the end of the pry bar, tighten the
bolts sufficiently to ensure the bracket will not move when the pressure is released.
6. Tighten the bolts in two steps, first to 17 inch pounds (0.1 NM. 0.01 kg m) and finally to 104 inch
pounds (0.7 NM, 0.07 kg m) of torque.
7. Repeat this procedure for each of the nine remaining cam brackets.
8. Install the new upper chain tensioner (P/N 13070-9E003) following the normal Service Manual
procedure.
9. Remove the rag from the timing chain area and reassemble.
10. Start engine and check for oil leaks and unusual noises.
PARTS INFORMATION
CLAIMS INFORMATION
Page 6079
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4555
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 1373
5. Make sure the targets are mounted correctly.
^ Mount the top claws first.
^ Claws must be flush against the wheel as shown in Figure 13.
^ Target must be flush against the center support as shown in Figure 14.
^ Make sure the targets are positioned with the arrow UP or level.
IMPORTANT:
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Locations
Ignition Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 4334
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2563
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8996
Cigarette Lighter: Electrical Diagrams
EL-CIGAR-01 Cigarette Lighter
Circuit Diagrams
Cigarette Lighter
Cigarette Lighter Circuit Connectors
Page 4252
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9200
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7896
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 9356
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1714
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Locations
Power Door Lock Actuator: Locations
Component Parts And Harness Connector Location
Page 5695
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7771
Page 3674
Type Of Standardized Relays (Part 2 Of 2)
Page 1806
Wheel Bearing: Fluid Type Specifications
Use a Quality, Multi-purpose wheel bearing grease.
Page 3991
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5620
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4623
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5727
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3727
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1256
Optional Splice
Example Diagrams
Page 2607
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4195
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 8208
Page 5587
DIAGNOSTIC PROCEDURE
Page 9604
1. Remove the door finisher assembly.
2. Remove the sealing screen and the door speaker (if equipped).
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
nuts can be seen.
4. Remove the glass mounting nuts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove the regulator assembly.
7. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-D: DOOR SASHLESS + MODULE TYPE (FR)
1. Remove the door finisher assembly.
2. Remove the harness connector and the door speaker (if equipped).
Page 3119
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Thermal Control Amp. Inspection
Control Module HVAC: Testing and Inspection Thermal Control Amp. Inspection
1. Run engine, and operate A/C system. 2. Connect the voltmeter from harness side. 3. Check
thermo control amp. operation shown in the table.
Page 5523
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5079
Leak Detection Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2532
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4747
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5947
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 2661
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 5676
Fuel Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The tank fuel temperature sensor is used to detect the fuel temperature inside the fuel tank. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the fuel
temperature input. The sensor uses a thermistor which is sensitive to the change in temperature.
The electrical resistance of the thermistor decreases as temperature increases.
Page 646
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9594
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
4. Remove the glass mounting bolts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove the module assembly.
7. Remove the door regulator assembly from the module assembly.
8. Remove the power window motor from the regulator.
Disclaimer
Page 1214
Type Of Standardized Relays (Part 2 Of 2)
Page 5049
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 391
Absolute Pressure Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2576
Ground Distribution
Page 4246
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6778
Axle Shaft: Service and Repair Axle Shaft Assembly, Constant Velocity Type
REMOVAL
1. Remove free running hub or drive flange and snap ring.
Refer to Locking Hub.
2. Remove torsion bar spring.
Refer to Torsion Bar.
3. Remove shock absorber lower fixing bolt.
4. Remove lower link, fixing bolts.
Support lower link with jack.
5. Remove bolts fixing drive shaft to final drive.
Page 1017
Ground Distribution
Page 6165
Ground Distribution
Radio Antenna - Bent/Broken
Antenna Mast: Customer Interest Radio Antenna - Bent/Broken
Classification: EL98-001
Reference: NTB98-022
Date: March 15, 1998
BROKEN OR BENT RADIO ANTENNA (FIXED) DUE TO IMPROPER TORQUE
APPLIED VEHICLES: All models with fixed (whip) radio antennae
SERVICE INFORMATION
The fixed antenna rod may bend or break during vehicle usage if it is not properly tightened during
installation.
Use this bulletin to ensure that every fixed antenna is correctly tightened during pre-delivery
inspection.
SERVICE PROCEDURE
1. Add a drop of Loc-Tite (Red) to the threaded portion of the antenna.
2. Use an inch-pound torque wrench and a crowfoot socket (or equivalent tools) to torque the fixed
antenna rod.
CAUTION:
Do not use pliers or adjustable wrenches that might scratch the surface of the antenna rod.
Torque Specification: 3.4 - 3.6 N.m (30 - 32 in-lb)
Page 6132
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Adjustments
Heater Control Valve Cable: Adjustments
TEMPERATURE CONTROL CABLE
- When adjusting ventilator door rod and defrost door rod, first disconnect mode control cable from
side link. Reconnect and readjust mode control cable.
- Move temperature control lever to max. COLD position. Set air mix door lever in full hot mode.
Pull on outer cable in direction of arrow and then clamp it.
- After positioning temperature control cable, check that it operates properly.
Page 8814
When storing a vehicle unprotected, where the painted surface is repeatedly exposed to a
combination of sunlight and light rain (or morning dew), the vehicle MUST be washed AND
thoroughly dried at least every two weeks, or more frequently if there is light rain or dew followed
by strong sunlight.
When washing any vehicle, it must be out of direct sunlight and the painted surfaces should be cool
to the touch.
WATER SPOTTING REPAIR PROCEDURE
The method of repairing a water spotted finish varies with the severity (depth of spot in finish) of the
spotting. After a thorough washing, perform the following:
1. Water spots on light colored vehicles and some vehicles which have had minimal exposure to
the elements can be repaired by buffing. First, apply a fine cutting compound using an orbital buffer
to remove a thin layer of the top coat or clear coat. After removal of the spots, buff with glazing
compound to remove the fine scratches.
2. More severe spotting can be removed with a coarser cutting compound followed by finer
compound and glazing compound to remove the scratches.
3. The most severe water spots on clear coated, dark vehicles can be repaired by wet sanding the
affected areas with 1200 grit sandpaper to prepare the surface then spraying a fresh clear coat on
those areas. Non-clear coated vehicles should be repairable with either step 1 or 2.
* Available through Dyment Distribution Services.
Technical Service Bulletin # 94-015 Date: 940208
Paint - Contamination Identification and Repair
Classification: BF94-003
Reference: NTB94-O15
Date: February 8, 1994
PAINT CONTAMINATION IDENTIFICATION AND REPAIR
This bulletin supersedes NTB93-058 / BF93-014 & NTB91-090 / BF91-023
APPLIED VEHICLE(S): ALL
SERVICE INFORMATION
The following procedures and materials have been found effective in removing iron particles, water
or chemical spots, scratches and/or swirl marks which have not penetrated the clear coat/color coat
of painted vehicle surfaces.
NOTE:
The updated repair procedures discussed in this Service Bulletin can be applied to all types of
Nissan clear coat materials, including the new Cross Link clear coat (NCLC)/hard clear coat.
*NOTE:
Measure the paint thickness before and after abrasive cleaning. If abrasive repair is not successful
on the first panel tested, it must be tried on each affected panel (hood, roof, trunk etc.,) to
determine which panel(s) must be re-clear coated or re-color/clear coated and which may be
repaired by abrasive means.
Finish Kare Product Distributors:
1726 Floradale Ave., El Monte, CA 91733 (213) 686-0462
Page 7770
Steering Gear: Pressure, Vacuum and Temperature Specifications
Normal Operating Temperature
..................................................................................................................................................... 60 80° C (140 - 176° F)
Page 3222
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2411
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4694
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3534
Intake Air Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The intake air temperature sensor is mounted to the air duct housing. The sensor detects intake air
temperature and transmits a signal to the ECM. The temperature sensing unit uses a thermistor
which is sensitive to the change in temperature. Electrical resistance of the thermistor decreases in
response to the temperature rise.
Page 7728
Optional Splice
Example Diagrams
Page 4945
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5244
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7099
Wheel Speed Sensor: Specifications
Front: Sensor 13-17 ft.lb
Cable 39.1-51.2 in.lb
Rear Sensor (At Backing Plate) 13-17 ft.lb
Page 8981
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Specifications
Alternator: Specifications ALTERNATOR OUTPUT
ALTERNATOR OUTPUT
Rated output Test output @ 2500 eng. rpm.
70 amps 54 amps 13.5 volts
Page 3872
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5153
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7190
Brake Shoe: Service and Repair
COMPONENTS
REMOVAL
WARNING: CLEAN BRAKE LINING WITH A VACUUM DUST COLLECTOR TO MINIMIZE THE
HAZARD OF AIRBORNE MATERIALS.
CAUTION: Make sure parking brake lever is completely released.
1. Release parking brake lever fully, then remove drum. If drum is hard to remove, the following
procedure should be carried out.
a. Remove plug. Then shorten adjuster to make clearance between brake shoe and drum.
b. Install two bolts as shown. Tighten the two bolts gradually.
Page 2644
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 709
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7775
Steering Gear: Service and Repair Power Recirculating Ball Type
Removal and Installation
STEERING GEAR MODEL PB59K
NOTE: Before removal, clean gear housing and oil pump exteriors using a steam cleaner. Then dry
with compressed air. Refer to the illustrations when servicing.
CAUTION: ^
Parts which can be disassembled are strictly limited.
^ Never disassemble parts other than those specified.
^ Disassemble in as clean a place as possible.
^ Clean your hands before disassembly.
^ Do not use rags; use nylon cloths or paper towels.
Page 1299
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Testing and Inspection
Fog/Driving Lamp Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 4477
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 4914
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 9246
Ground Distribution
Page 2459
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 830
Type Of Standardized Relays (Part 2 Of 2)
Page 1537
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 6353
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7651
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2405
Ground Distribution
Locations
Shift Interlock Solenoid: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 645
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3114
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1372
> Engine coolant and lubricating oils at specified levels
> Spare tire, jack, hand tools, and floor mats in designated positions
NOTE:
Refer to the appropriate Service Manual for information about any of the above checks and
inspections.
4. Check the target mounts.
^ If there is any visual damage (bent, worn, cracked, etc), have the equipment repaired before
performing any alignments.
^ Make sure the target mounts are properly adjusted and configured (see Figure 11).
NOTE:
The target mount example shown in Figure 11 is for Hunter "camera type" alignment machines.
Follow the operation manual for your specific equipment.
Page 3934
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Paint - Contamination Identification and Repair
Technical Service Bulletin # 94-015 Date: 940208
Paint - Contamination Identification and Repair
Classification: BF94-003
Reference: NTB94-O15
Date: February 8, 1994
PAINT CONTAMINATION IDENTIFICATION AND REPAIR
This bulletin supersedes NTB93-058 / BF93-014 & NTB91-090 / BF91-023
APPLIED VEHICLE(S): ALL
SERVICE INFORMATION
The following procedures and materials have been found effective in removing iron particles, water
or chemical spots, scratches and/or swirl marks which have not penetrated the clear coat/color coat
of painted vehicle surfaces.
NOTE:
The updated repair procedures discussed in this Service Bulletin can be applied to all types of
Nissan clear coat materials, including the new Cross Link clear coat (NCLC)/hard clear coat.
*NOTE:
Measure the paint thickness before and after abrasive cleaning. If abrasive repair is not successful
on the first panel tested, it must be tried on each affected panel (hood, roof, trunk etc.,) to
determine which panel(s) must be re-clear coated or re-color/clear coated and which may be
repaired by abrasive means.
Finish Kare Product Distributors:
1726 Floradale Ave., El Monte, CA 91733 (213) 686-0462
Page 5534
Ground Distribution
Page 8609
3. Remove and discard the perforated section of the door vapor barrier located behind the speaker
(see Figure 2).
4. Apply 3 pieces of adhesive-backed foam tape (1\4" thick by 1" wide by 3" long - such as 3MTM
Scotch-foam 4504 #021200-07262) to the backside of the speaker (see Figure 3).
5. Re-install the speaker. Make sure the vehicle wire harness is re-connected to the speaker.
6. Re-install the door finisher.
7. Test the speakers to ensure the noise is minimized or eliminated.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 4680
Throttle Full Close Switch: Testing and Inspection
COMPONENT INSPECTION Closed Throttle Position Switch
1. tart engine and warm it up to normal operating temperature. 2. Turn ignition switch "OFF". 3.
Disconnect throttle position switch harness connector.
4. Check continuity between terminals (5) and (6) while opening throttle valve manually.
If NG, replace throttle position switch.
Page 4303
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 945
Ground Distribution
Page 3270
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4042
Engine Control Module: Technical Service Bulletins ECM - Relay (Type 1M) Green or Blue
Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 6382
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Sunroof - Headliner Squeak Noises
Headliner: Customer Interest Sunroof - Headliner Squeak Noises
Classification: BT98-003
Reference: NTB98-040
Date: June 1, 1998
1998 FRONTIER SQUEAK NOISE IN HEADLINER NEAR SUNROOF
APPLIED VEHICLE: All 1998 Frontier (D22) - sunroof models only
SERVICE INFORMATION If a 1998 Frontier exhibits a "scratchy" type of squeak noise in the
headliner around the edges of the sunroof, the cause may be the headliner panel rubbing on the
vehicle body.
Use the following procedure to resolve the incident:
SERVICE PROCEDURE
1. Remove the sunroof panel as follows:
A. Remove the sunroof shade panel by turning the securing knobs counterclockwise and pulling
the panel down and towards the rear of the vehicle to release (see Figure 1).
B. Disconnect the sunroof handle from the sunroof handle latch by depressing the two release
buttons on the handle latch while pushing up on the sunroof panel (see Figure 2).
Page 2551
Type Of Standardized Relays (Part 2 Of 2)
Page 5162
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4955
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 8446
5. Peel off the top (smaller) backing sheet from one of the fluorine resin tapes (see Figure 5).
^ Two fluorine resin tape pieces are provided in the kit.
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
6A.
NOTE:
^ The sticky half should be down, toward the floor of the vehicle.
^ The unexposed (not sticky yet) half should be up, toward the ceiling of the vehicle.
Note the following before performing steps 7 and 8:
^ Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned.
^ Take care to properly attach the tape to the "D" ring.
^ Center the tape correctly on the "D" ring and smoothly apply it to the "D" ring surface so that no
wrinkles or ridges are present.
^ Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D"
ring. If this should occur, replace the tape with a new piece.
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 6B).
Page 2306
2. Apply a continuous bead of liquid gasket to mating surface of water pump.
- Use Genuine RTV Silicone Sealant Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Page 3626
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6833
Page 2858
Ground Distribution
Front Differential
Page 378
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Specifications
EGR Temperature Sensor: Specifications
Resistance 7.9 - 9.7 M ohms at 32 deg F
0.57 - 0.70 M ohms at 122 deg F
0.08 - 0.10 M ohms at 212 deg F
Voltage 4.81 VDC at 32 deg F
2.81 VDC at 122 deg F
0.8 VDC at 212 deg F
Page 3441
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1176
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6064
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 3959
EC-RRO2-01 Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Diagrams
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Page 6836
Page 204
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 671
EC-RRO2/H-01 Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Diagrams
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Page 5989
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5698
Ground Distribution
Page 8568
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9073
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 4743
Ground Distribution
Page 7317
Battery: Technical Service Bulletins Electrical - Electronic Component Damage Prevention
Classification: EL09-011
Reference: NTB09-030
Date: April 6, 2009
ELECTRONIC CONTROL UNIT DAMAGE CAN RESULT FROM IMPROPER BATTERY
CONNECTION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ The vehicle 12 volt battery is an important part of the vehicle electrical system and is required to
stay connected when the engine is running.
^ To prevent damage to vehicle electronic components follow the instructions / cautions below.
IMPORTANT:
Damage to electronic components (ECM, TCM, BCM, etc.) due to improper battery connection will
not be covered under warranty.
CAUTION:
^ Make sure the ignition is OFF during battery service and replacement.
^ Do not disconnect or connect any battery cables while the ignition switch is turned ON.
^ When disconnecting a battery, always disconnect the negative cable first.
^ When connecting a battery, always connect the positive cable first.
^ Do not leave a battery cable loose. Tighten battery cables immediately after attachment.
^ If a battery cable is loose, do not operate any electrical loads. (This includes turning the ignition
ON, starting the engine, operating accessories such as
the A/C system, power seats, interior lights, exterior lights etc.).
^ When "jump starting" or "boosting" a battery - be careful. Don't accidentally reverse the polarity of
the cables.
Disclaimer
Page 4583
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1041
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2504
Ground Distribution
Page 5319
Idle Speed: Specifications IDLE SPEED
IDLE SPEED
Idle speed M/T 800 +/- 50 RPM
Idle speed A/T ( in N position) 800 +/- 50 RPM
Refer to idle speed adjustments
Page 8933
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7750
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3999
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5348
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6188
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 384
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3900
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 214
Ignition Control Module: Testing and Inspection
COMPONENT INSPECTION Power Transistor
1. Disconnect camshaft position sensor & power transistor harness connector and ignition coil
harness connector.
2. Check power transistor resistance between terminals (2) and (8).
If NG, replace distributor assembly.
Page 1209
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 970
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6959
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2366
Service and Repair
Axle Nut: Service and Repair
Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Auto Lock Free Running Hub
Page 7532
Once you have set the target position, DO NOT reset it at anytime during the alignment process.
6. Begin the alignment procedure.
^ Follow all of the instructions for your particular equipment.
^ Refer to the Service Manual for alignment specifications.
If your equipment requires "rolling compensation". follow these additional tips:
^ DO NOT push or pull on the vehicle body.
IMPORTANT:
After performing "rolling compensation", DO NOT reset the target position.
When performing "caster sweep". follow these tips:
Page 7077
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2012
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 1052
Ground Distribution
Page 4792
Ground Distribution
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2994
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3048
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5507
Fuel Temperature Sensor: Electrical Diagrams
EC-TFTS-01 Tank Fuel Temperature Sensor (DTC: P0180)
Circuit Diagrams
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 540
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5368
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 6254
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2545
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2695
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7498
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 4237
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 4485
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 563
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 735
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1669
Page 4459
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9338
PARTS INFORMATION
CLAIMS INFORMATION
Page 8566
Description (Part 1 Of 2)
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 457
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8205
Comments regarding liquid tanks:
^ For R-134a, the sight glass has been deleted. Refer to the service procedures section of this
bulletin for additional information regarding the refrigerant charge determination. Pressure switches
are not interchangeable between R-12 and R-134a systems.
Page 4204
Optional Splice
Example Diagrams
Page 4495
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3470
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9214
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4910
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2727
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 935
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Locations
Clutch Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Recall 98V064000: A/T Shift Lever Can Come Loose
Shifter A/T: All Technical Service Bulletins Recall 98V064000: A/T Shift Lever Can Come Loose
Year: 1998 Make: NISSAN TRUCK Model: FRONTIER Year of Recall: '98 Type of Report: Vehicle
Potential Number of Units Affected: 3000 Summary:
Vehicle Description: Light duty passenger trucks equipped with automatic transmissions. A
securing pin inside the automatic transmission control device assembly can come loose allowing
the shift lever to be inadvertently moved out of the Park position with the key in the ignition.
This could result in a crash if the parking brake is not engaged.
Dealers will inspect the automatic transmission control device assembly and replace it if necessary.
Owner notification is expected to begin during April 1998. Owners who take their vehicles to an
authorized dealer on an agreed upon service date and do not receive the free remedy within a
reasonable time should contact Nissan at 1-800-NISSAN-1 (1-800-647-7261). Also contact the
National Highway Traffic Safety Administration's Auto Safety Hotline at 1-888-DASH-2-DOT
(1-888-327-4236).
Page 2818
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7526
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
4. Make sure the "turn plates" and "slide" plates are in good working order:
^ The surface of the front turn plates must be level with (the same height as) the rack surface.
If height is not the same; have the equipment repaired before performing any alignments.
^ Make sure the front turn plates:
> Do not wobble (no up/down movement).
> Operate (slide and turn) smoothly in all directions.
If there is any issue with the turn plate operation - have the equipment repaired before performing
any alignments.
Page 9384
EL-H/LAMP-01 Headlamp Wiring Diagram (For USA)
Circuit Diagrams
Headlamp (For USA)
Circuit Connectors
Page 6826
TRANSFER CASE DIAGNOSTIC TABLE
Page 9240
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Cruise Control Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Specifications
Main Shaft: Specifications
AVAILABLE SNAP RING
Mainshaft Front Bearing
Main Gear Bearing
Mainshaft Rear Bearing
Page 1551
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 5621
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 9613
^ These scratches are typically long and have several scratches concentrated together.
^ These scratches can be found anywhere on the glass surface.
^ Thoroughly examine the entire length of the crack to identify any scratch as a start point.
3) How to determine if glass has distortion or cracks due to manufacturing Issue.
Disclaimer
Page 2622
Type Of Standardized Relays (Part 2 Of 2)
Testing and Inspection
System Relay: Testing and Inspection
Check circuit continuity between terminals by supplying 12 Volts to coil side terminals of air
conditioner relay.
Page 7327
Battery: Service Precautions Charging the Battery
CAUTION:
^ Do not "quick charge" a fully discharged battery.
^ Keep the battery away from open flame while it is being charged.
^ When connecting the charger, connect the leads first, then turn on the charger. Do not turn on the
charger first, as this may cause a spark.
^ If battery electrolyte temperature rises above 60° C (140° F), stop charging. Always charge
battery at a temperature below 60° C (140° F).
Charging rates:
Amps Time
50 1 hour
25 2 hours
10 5 hours
5 10 hours
Do not charge at more than 50 ampere rate.
NOTE: The ammeter reading on your battery charger will automatically decrease as the battery
charges. This indicates that the voltage of the battery is increasing normally as the state of charge
Improves. The charging amps indicated above refer to initial charge rate.
^ If, after charging, the specific gravity of any two cells varies more than 0.050, the battery should
be replaced.
^ After the battery is charged, always perform a capacity test to assure that the battery is
serviceable.
Page 2399
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8728
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1394
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 2871
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3449
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9245
Ground Distribution
Page 7430
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 6199
Ground Distribution
Page 6088
Ground Distribution
Page 9192
Description (Part 1 Of 2)
Page 1004
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9509
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5392
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5662
Ground Distribution
Page 5527
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3493
Type Of Standardized Relays (Part 2 Of 2)
Page 6642
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 6774
NOTE: Do not reuse oil seal once it is removed. Always install new one.
6. Remove ABS sensor rotor.
7. Unbend lock washer with a screwdriver.
8. Remove bearing lock nut with Tool.
9. Remove wheel bearing together with bearing cage and baffle plate from axle shaft.
10. Remove grease seal in bearing cage with suitable bar.
Page 5048
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2555
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 9452
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4242
Description (Part 1 Of 2)
Page 4663
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3825
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8696
Engine Compartment
Engine Compartment
Page 7752
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Testing and Inspection
Refrigerant Pressure Sensor / Switch: Testing and Inspection
Page 6138
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 931
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4177
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3708
In the Administrator window select My Computer.
In the My Computer screen select Local Disc (C).
In the Local Disc (C) screen select Consult III folder.
In the Consult III screen/folder select ApplicationData folder.
In the ApplicationData screen/folder select PrintImages folder.
When the file was saved it was automatically given a file name using the current date and time.
Select and print the file/screen image that you want.
NOTE:
During reprogramming DTCs will set in several systems. DTCs must be erased from all systems.
Erase DTCs from all systems
22. Click on the "Home" icon (top left corner of the C-III screen).
23. Wait for the "Detecting VI/MI in progress" message to clear.
24. Select the detected VI from the list. (See Figure 12.)
25. Select Connect.
26. Wait for the "Checking the firmware version" message to clear.
Page 3753
Page 6964
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9337
5. Slide a one-inch piece of dual-wall heat shrink tubing (3M(TM) P/N 054007-55917 or equivalent)
onto each wire of the vehicle wire harness (see Figure 1a).
6. Connect each wire (of the replacement connector) to the vehicle wire harness making sure the
wires are correctly connected (i.e., no mis-matched wires). See Figure lb.
IMPORTANT:
Only use lead-free solder when performing step 7 below. Also, step 7 must be performed as stated
to avoid a "cold" solder joint (i.e., a joint that will not hold together).
7. Solder each wire connection joint as follows:
A. Place the soldering iron tip against the bottom side of the wire strands and heat the wires (see
Figure lb).
B. Once the wires are hot, apply the solder to the top side of the wire strands until they are fully
coated with melted solder (see Figure 1b).
8. After the soldered joint cools down, slide the heat shrink tubing over the soldered joint and heat
the tubing with a heat gun until it seals the joint (see Figure 1c).
IMPORTANT:
Each wire connection joint MUST be soldered and sealed with the heat shrink tubing due to the
high wire current and moisture in this location. DO NOT use Scotch-Loks (TM) or butt connectors
for splicing at this location.
Page 1727
Fuse Block-Fuse Arrangement
Capacity Specifications
Engine Oil: Capacity Specifications
Specified amount:
With oil filter .........................................................................................................................................
.............................................. 4.125 qts. (3.9 Liters)
Without oil filter ....................................................................................................................................
.............................................. 3.875 qts. (3.7 Liters)
Page 2540
Ground Distribution
Page 1854
Wheel Hub (Locking): Service and Repair Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Page 4114
Absolute Pressure Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3630
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9463
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8328
SRS Component Parts Location
Page 1763
Print this page and keep it by your tire mounting equipment
Page 1698
Additionally the PAG lubricant type, part numbers and system recharge amounts are listed for each
model.
Page 9522
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Locations
Power Door Lock Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Specifications
Constant Velocity Joint Boot: Specifications
DIMENSIONS
Final Drive Side ...................................................................................................................................
............................... 95 - 97 mm (3.74 - 3.82 inch) Wheel Side ...........................................................
............................................................................................................... 96 - 98 mm (3.78 - 3.86
inch)
Page 6320
Page 5151
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3361
Page 1924
Crankshaft Main Bearing: Specifications Main Bearing Cap Loosening/Tightening Sequence
TORQUE VALUES
Motor Mounts
Outer Components
Testing and Inspection
PCV Valve Hose: Testing and Inspection
VENTILATION HOSE
1. Check hoses and hose connections for leaks. 2. Disconnect all hoses and clean with
compressed air. If any hose cannot be freed of obstructions, replace.
Page 2642
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4253
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2890
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3480
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Diagram Information and Instructions
BARO / MAP Sensor Switching Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5966
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6009
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5624
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8810
on the towel to avoid scratching the paint with any loosened iron particles.
3. Apply Finish Kare # 883 directly from the bottle using the applicator provided. Keep the affected
areas wet for 5 minutes and allow the solution to lift the particles. Agitate gently, but do not rub as
this will scratch the color coat or clear coat of paint. Reapply # 883 to spots which start to dry
before rinsing
CAUTION:
Do not exceed the 5 minute soak time as this solution may damage the paint or trim.
4. Rinse thoroughly with tap water, dry and inspect the surface.
5. Reapply # 883 as often as needed to remove more difficult spots.
6. When all iron particles are removed, wash with Finish Kare # 118SC (Neutralizer and Shampoo)
and rinse thoroughly. Gently dry with a fresh towel. Do not use towels used in the above steps, as
they may have iron particles in the nap and could scratch the color coat or clear coat.
F. Inspect For Damage Severity
After washing and iron particle/chemical removal are performed on the test section, inspect the
surface to determine the severity of damage. Levels 2 and 3 are determined using abrasive
removal on test sections on each affected panel.
Examine the vehicle in both strong sunlight and/or indoor fluorescent lighting (inspection is easier
with a hand held 500 watt halogen lamp and a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is easily done with an 8X
and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Level 1 No damage, the contamination did not penetrate the paint surface and washed off using
the detergent and water and the iron particle remover.
Level 2 Minor damage, the contamination did not penetrate more than 0.5 mil of the color coat or
clear coat. Abrasive cleaning will resolve.
Level 3 Substantial damage, the contamination penetrated more than 0.5 mil of the color coat or
clear coat. Re-color and clear coat is necessary
G. Abrasive Cleaning
IMPORTANT:
All iron particles and acids must be removed and the surface neutralized with the above procedure
before proceeding. Iron particles and acids which remain will not be fully removed by abrasive
cleaning. Small amounts of contamination will wick moisture into the clear coat or through a
re-color/clear coat and cause blistering
The goal of abrasive cleaning is to remove the damaged layer of color coat or clear coat (up to 0.5
mil in thickness) using the least abrasive process. The steps below demonstrate the sequence of
operations to use on the test section to identify the severity of damage and the repair needed.
1. Measure paint film thickness.
2. Polish and evaluate. If OK Polish all affected surfaces. If NG go to step 3.
Also determine film thickness removed.
3. Buff and evaluate. If OK Buff and then polish all If NG go to step 4.
affected surfaces.
Also determine film thickness removed
4. Wet sand and evaluate. If OK wet sand then buff and If NG go to step 5.
polish affected surfaces
Also determine film thickness removed.
5. Re-clear/color coat after neutralizing surfaces.
6. Apply color coat and clear coat if damage is completely through clear coat
NOTE:
Polishing to remove buffing or swirl marks requires a foam finishing pad on a dual action sander.
Page 2293
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4628
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2908
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1354
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 7032
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 128
Optional Splice
Example Diagrams
Page 1022
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4474
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9441
Optional Splice
Example Diagrams
A/C - Refrigerant Charging Equipment Maintenance
Refrigerant: Technical Service Bulletins A/C - Refrigerant Charging Equipment Maintenance
Classification: HA00-001
Reference: NTB00-026
Date: March 13, 2000
ACR4 REFRIGERANT MACHINE MAINTENANCE
APPLIED VEHICLES: All Nissan Vehicles with R-134a Air Conditioning
SERVICE INFORMATION
To ensure accurate air conditioning system diagnosis and repair, it is critical that periodic
maintenance be performed on your refrigerant charging equipment (ACR4 machine) and that
proper operating techniques be used. Additionally, as refrigerant charge amounts continue to
become smaller, it is vital that your refrigerant charging equipment be as accurate as possible.
SERVICE PROCEDURE
Use the information listed under the "Maintenance" section of this bulletin to "tune-up" your ACR4
machine to keep it operating at top performance. Refer to information listed under "Operational
Tips" to ensure the highest level of charging accuracy when using the ACR4 machine.
IMPORTANT: ACR4 maintenance should be conducted following the manufacture's instructions
and recommended schedule. For details about performing ACR4 maintenance, refer to the ACR4
Operating Instruction Manual (Tech-Mate P/N J39500-7). Additional information related to ACR4
maintenance and operation is available in the May 1998 edition of Tech Talk and SIR video # 57.
The ACR4 Operating Instruction Manual can be ordered from Tech-Mate by calling 800-662-2001.
NOTE: A maintenance kit is available for the ACR4 machine through Tech-Mate (P/N
J-39500-MAINT). The kit includes: vacuum pump oil, a desiccant/filter and two O-rings (for the
desiccant/filter). The ACR4 Maintenance Kit can be ordered from Tech-Mate by calling
800-662-2001.
Maintenance
Vacuum Pump Oil
Change the vacuum pump oil every 10 hours of operation (when display reads "OIL") or sooner if
contamination is seen through the sight glass (see Figure 1).
Filter/Dryer
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 4472
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5874
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Engine - Drive Belt Noise Diagnosis
Drive Belt: All Technical Service Bulletins Engine - Drive Belt Noise Diagnosis
Classification: EM09-013
Reference: NTB10-002
Date: January 12, 2010
DRIVE BELT SYSTEM NOISE DIAGNOSIS
APPLIED VEHICLES All Nissan
IF YOU CONFIRM
There is noise coming from the drive belt(s), or drive belt pulley(s),
ACTION
Use the flow chart in this bulletin to help diagnose and identify the source / cause of the noise.
CLAIMS INFORMATION
Refer to the current Nissan Warranty Flat Rate Manual and use the indicated claims coding for any
repairs performed.
Page 9285
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2437
Main Harness (Part 2 Of 2)
Fuel Pump Relay Connector # M46
Page 7647
Ground Distribution
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Caliper: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Page 8415
4. Pull the wire back and forth across the surface of the "D" ring, sliding it over all areas of the "D"
ring where it contacts the seat belt (see Figure 7) until all residue is removed.
NOTE:
It is very important to remove all residue build-up from the "D" ring before the following steps of the
procedure are completed. Failure to remove all residue build up will result in poor adhesion of the
special fluorine resin tape.
5. Peel off the top (smaller) backing sheet from one of the two fluorine resin tape sections provided
in the kit (see Figure 8).
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
9A.
NOTE:
Page 8944
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7192
- Pay attention to direction of adjuster.
Left wheel: Lefthand thread Right wheel: Righthand thread
4. Connect parking brake cable to toggle lever. 5. Install all parts.
NOTE: Be careful not to damage wheel cylinder piston boots.
Parking Brake Cable To Toggle Lever
6. Check all parts are installed properly. After installation is completed, adjust shoe-to-drum
clearance.
NOTE: Always perform shoe clearance adjustment.
7. Install brake drum. 8. When installing new wheel cylinder or overhauling wheel cylinder, bleed
air. 9. Adjust parking brake.
Crank Lever Adjustment
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Page 3898
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 2152
Page 3287
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8615
3. Remove and discard the perforated section of the door vapor barrier located behind the speaker
(see Figure 2).
4. Apply 3 pieces of adhesive-backed foam tape (1\4" thick by 1" wide by 3" long - such as 3MTM
Scotch-foam 4504 #021200-07262) to the backside of the speaker (see Figure 3).
5. Re-install the speaker. Make sure the vehicle wire harness is re-connected to the speaker.
6. Re-install the door finisher.
7. Test the speakers to ensure the noise is minimized or eliminated.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 699
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 2923
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Specifications
Page 2452
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 393
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4801
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Interior - Seat Belt Latch Plate Button Missing
Technical Service Bulletin # 99-022C Date: 030805
Interior - Seat Belt Latch Plate Button Missing
Classification: RS99-001C
Reference; NTB99-022C
Date: August 5, 2003
FRONT SEAT BELT LATCH PLATE RETAINING BUTTON MISSING
The Applied Vehicles and Service Information sections of this bulletin have been revised. Please
discard all previous copies of NTB99-022.
APPLIED VEHICLES
IF YOU CONFIRM:
^ The front seat belt latch plate of an applied vehicle slides to the end of the seat belt, sliding down
the belt to the floor at the base of the B pillar.
^ This happens because the seat belt latch plate retaining button is lost or damaged.
^ The seat belt and retractor are in serviceable condition,
ACTION:
Use this bulletin to replace the retaining button and clean, and refurbish the driver's and
passenger's front seat belt "D" rings.
NOTE:
This button is required to hold the seat belt latch plate at the shoulder location, preventing it from
sliding to the floor when the belt is released.
NOTE:
The purpose of "ACTION" is to give you a quick idea of the work you will be performing. You must
closely follow the entire Service Procedure as it contains information that is essential to
successfully completing this repair.
Page 2284
Ground Distribution
Page 4949
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8626
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 3109
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6784
1.9 mm (0.075 inch) .............................................................................................................................
..................................... 39253-88 G14 2.1 mm (0.083 inch) ...............................................................
................................................................................................... 39253-88 G15 2.3 mm (0.091 inch) .
..............................................................................................................................................................
... 39253-88 G16
Page 2785
EC-FRO2-01 Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Diagrams
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 4300
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8939
Audible Warning Device: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7123
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Emissions System - MIL ON/DTC's Stored (EVAP)
Canister Purge Control Valve: Customer Interest Emissions System - MIL ON/DTC's Stored
(EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Page 3544
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4953
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3223
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7363
Ground Distribution
Page 521
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6493
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3237
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 6047
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4153
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3247
Description (Part 1 Of 2)
Page 488
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2490
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6057
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6694
CLUTCH COVER AND FLYWHEEL INSPECTION AND ADJUSTMENT
- Check clutch cover, installed on vehicle, for uneven diaphragm spring toe height.
Uneven limit: 0.7 mm (0.028 inch)
- If out of limit, adjust the height using Tool.
FLYWHEEL INSPECTION
CAUTION: Do not allow any magnetic materials to contact the ring gear teeth.
- Inspect contact surface of flywheel for slight burns or discoloration. Clean flywheel using emery
paper.
- Check flywheel runout. Maximum allowable runout: Less than 0.15 mm (0.006 inch)
INSTALLATION
- Insert Tool into clutch disc hub while installing clutch cover and disc.
- Be careful not to allow grease to contaminate clutch facing.
- Tighten bolts in numerical order, in two steps.
First step: R: 10 - 20 Nm (1.0 - 2.0 kg.m, 7 - 14 ft. lbs.) Final step: H: 22 - 29 Nm (2.2 - 3.0 kg.m, 16
- 22 ft. lbs.)
Page 8153
5. Retighten the joint connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Use a backup wrench on the low hose when tightening the joint connection nut.
Low Hose Bracket Installation
1. Separate the two halves of the bracket by removing the screw.
2. Install the two halves of the bracket on the compressor end of the A/C low hose at the tube bend
closest to the compressor flange (see Figure 6).
NOTE:
When installing the bracket, make sure the bracket half with the weld nut on the side points away
from the engine.
3. Install and tighten the bracket screw to 3.8 - 4.5 N.m (0.4 - 0.5 kg-m, 33 - 40 in-lb).
Specifications
Firing Order: Specifications Firing order
Firing order
Firing order 1-3-4-2
Locations
Wiper Motor: Locations
Engine Compartment
Engine Compartment
Page 1045
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 912
EGR Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3663
Ground Distribution
Front
Wheel Speed Sensor: Service and Repair Front
REPLACEMENT
Refer to the illustration when servicing, noting the following:
CAUTION: Be careful not to damage sensor edge and sensor rotor teeth. When removing the front
wheel hub or rear axle shaft assembly, disconnect the ABS wheel sensor from the assembly and
move it away.
Page 5691
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9368
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6944
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 864
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5143
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5187
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4618
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 1174
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9560
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 195
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5420
Fuel Injector: Service and Repair
1. Release fuel pressure to zero. 2. Remove injector tube assembly with injectors from intake
manifold.
3. Remove injectors from injector tube assembly.
- Push injector tail piece.
- Do not pull on the connector.
4. Install injector to fuel tube assembly.
a. Clean exterior of injector tail piece. b. Use new O-rings.
Always replace O-rings with new ones. Lubricate O-rings with a smear of engine oil.
5. Install injectors with fuel tube assembly to intake manifold.
Tighten in numerical order shown in the figure. a. First, tighten all bolts to 9.3 to 10.8 N.m (0.95 to
1.1 kg-m, 6.9 to 8.0 ft-lb). b. Then, tighten all bolts to 21 to 26 N.m (2.1 to 2.7 kg-m, 15 to 20 ft-lb).
6. Install fuel hoses to fuel tube assembly. 7. Reinstall any pants removed in reverse order of
removal.
CAUTION: After properly connecting injectors to fuel tube assembly, check connections for fuel
leakage.
Page 934
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2566
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8775
The table provides a brief description of some types of paint contamination you may encounter.
Select a 2' x 2' test section to perform the following Contamination Test Removal.
C. RE-Wash
C. Re-Wash with detergent and water solution, keeping it wet for 4-5 minutes. To avoid scratching
the finish, do not rub, gently move the solution around with light pressure. Do not allow the solution
to dry before rinsing. Use, clean warm water and a clean terry cloth towel. Frequently rinse off the
terry cloth towel to avoid scratches from entrapped dirt. Replace the towel with a clean one once it
becomes soiled. Rinse with a spray of clean water. Repeat up to four times.
D. Clean
D. Clean with Nissan Bug and Tar remover using a clean terry cloth towel and gentle pressure.
Repeat up to four times.
E. Applying Finish Kare
E. Apply Finish Kare to remove iron particles and acids. See procedure below:
Caution:
Attempting to buff iron particles will cause severe scratching.
1. Apply Finish Kare # 1119, solution, keeping it wet for 4-5 minutes. To avoid scratching the finish,
do not rub, gently move the solution around with light pressure. Do not allow the solution to dry
before rinsing.
2. After the wash and rinse, gently dry the contaminated surfaces with the terry cloth towels to
remove the majority of the water. Use gentle pressure
Headlight Connector - Replacement
Headlamp: All Technical Service Bulletins Headlight Connector - Replacement
Classification: EL01-005
Reference: NTB01-028
Date: May 15, 2001
HEADLIGHT CONNECTOR REPLACEMENT
APPLIED VEHICLES: All Nissan - except vehicles equipped with Xenon(TM) headlights
SERVICE INFORMATION
Nissan has established replacement headlight connectors and service procedures to replace
damaged connectors on the applied vehicles. If the headlight wire harness connector is damaged,
causing intermittent or improper headlight operation, or the connector otherwise needs
replacement, follow the procedures in this bulletin.
Page 3562
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7837
Page 8777
3M materials:
Meguiar's materials:
Misc:
8" buffer (1500-1750 RPM) Dual action sander, variable speed Terry cloth towels (100% cloth)
NOTE:
Always use separate pads for each liquid (mark the backside of each pad with the type of liquid
used) and clean the pads frequently. Use of a wool pad on clear coat is limited to the polishing type
of pad and is always followed by a foam Dad on a dual action sander to remove swirl marks.
Measuring Paint Film Thickness
Before any abrasive removal, measure the initial film thickness at several places to establish an
average figure. After each abrasive step measure several places again to determine how much
paint film was removed. Follow the instructions provided by the manufacturer of the mil gauge you
are using for measurement and calibration. If you do not have a thickness gauge use the following
rule of thumb during abrasive removal; When the "orange peel" surface is removed, 0.5 mil has
been removed.
Polishing
Polishing is done in two steps: The first step is with an 8" buffer and the second step with a dual
action sander to remove buffing and swirl marks. Low speed (1500-1750 RPM) is necessary to
prevent overheating the surface.
CAUTION:
Do not polish or buff a surface dry. More than the usual quantity of liquid must be used to keep the
paint surface cool. Wipe the excess material off with a clean soft towel after each operation
1. Clean the surface of all residue before polishing.
2. Use an 8" buffer (at 1500 - 1750 RPM) with either a 3M wool polishing pad or a Meguiar's foam
pad, apply polishing compound over the work
Page 2884
Optional Splice
Example Diagrams
Page 4665
Ground Distribution
Page 7009
Optional Splice
Example Diagrams
Page 4427
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5260
EGR Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The EGR temperature sensor detects temperature changes in the EGR passage way. When the
EGR valve opens, hot exhaust gases flow, and the temperature in the passage way changes. The
EGR temperature sensor is a thermistor that modifies a voltage signal sent from the ECM. This
modified signal then returns to the ECM as an input signal. As the temperature increases, EGR
temperature sensor resistance decreases. This sensor is not used to control the engine system. It
is used only for the on board diagnosis.
Page 3335
Ground Distribution
Page 4922
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8924
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Diagram Information and Instructions
Oxygen Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3280
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 6600
Use the "Combination" Op Codes as indicated with the appropriate Section "JA", "JC", or "JD"
coding that best represents the A/T R&R; and repair/replacement performed.
Service Procedure
Page 3326
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1093
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
A/C - Idler Pulley Whine Noise at 3000 rpm
Drive Belt: All Technical Service Bulletins A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 4585
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4847
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Page 496
Ground Distribution
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Recall - Seat Back Handle Replacement
Technical Service Bulletin # 98-035 Date: 980416
Recall - Seat Back Handle Replacement
Reference: NTB98-035
Date: April 16, 1998
VOLUNTARY SAFETY RECALL CAMPAIGN 1998 FRONTIER SEAT BACK HANDLE
REPLACEMENT
CAMPAIGN IDENTIFICATION NO: 98V-065
APPLIED VEHICLE: 1998 Frontier (D22) King Cab - Bucket Seat Only
APPLIED VINs: 1NGDD2***WC300001 to WC341732
APPLIED DATES: SOP to January 28, 1998
INTRODUCTION
In some 1998 Frontier King Cab trucks, certain types of frontal crashes may cause the front seat
belt on either seat to slip between the seat bottom finisher and the seat back plastic recliner
handle. If this occurs, the seat belt may be cut by the sharp edge of the metal portion of the recliner
lever. If the seat belt is completely severed by this occurrence, it could increase the risk of injury to
an occupant in a crash.
Owners of affected Frontiers will be notified by mail to return to their Nissan dealer to have each
seat back plastic recliner handle replaced with a new one with a different shape which prevents the
seat belt from slipping between the seat bottom finisher and the seat back recliner handle.
IDENTIFICATION NUMBER
Nissan has assigned identification number 98V-065 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
Approximately 23,500
DEALER RESPONSIBILITY
The dealer is responsible for checking Service Comm for the Campaign status on every vehicle
falling within the range of this campaign which enters the service department for any reason. This
includes vehicles purchased from the dealer, vehicles purchased from another dealer, and vehicles
purchased from private parties. Federal law requires that new vehicles in inventory which are the
subject of a safety recall must be corrected prior to sale. Failure to do so can result in civil penalties
by the National Highway Traffic Safety Administration. While this law only applies to new vehicles,
Nissan strongly encourages dealers to also correct any used trucks in their inventory which fall
within the range of this campaign prior to sale.
SERVICE PROCEDURE
1. Check Service Comm to verify that the procedure for this campaign has not already been
performed.
2. Park the vehicle on a level surface, turn OFF the ignition and set the parking brake.
Page 4929
Canister Purge Volume Control Valve: Connector Views
Evaporative Emission Canister Purge Volume Control Solenoid Valve (DTC: P0443)
Evaporative Emission (EVAP) Canister Purge Volume Control Solenoid Valve (Circuit) Circuit
Connectors
Page 5889
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9072
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 2912
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 6606
4. Hold the hose and can as high as possible. Spray Transmission Cooler Cleaner in a continuous
stream into the air cooler Outlet hose until fluid flows out of the air cooler Inlet hose for 5 seconds
(Point A, Figure 8).
5. Insert the tip of an air gun into the end of the air cooler Outlet hose (see Point B, Figure 9).
6. Wrap a shop rag around the air gun tip and end of the air cooler Outlet hose.
7. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the air cooler Outlet hose
to force any remaining oil or cleaner through the air cooler and out of the air cooler Inlet hose (see
Point A, Figure 9).
8. Proceed with Diagnosis Procedure (All Vehicles), below.
Diagnosis Procedure (All Vehicles)
You will be taking a sample of the debris to determine if the radiator/oil cooler must be replaced.
CAUTION:
You must refer to Charts A and B to determine the location of the Inlet and Outlet hoses for the oil
cooler in the radiator of the vehicle you are working on.
If you do not identify the Inlet and Outlet hoses correctly, debris may be left inside the "in radiator"
cooler and transmission damage may occur.
NOTE:
Failure to clean the exterior of the Cooler Inlet hose properly may lead to inaccurate debris
identification.
1. Place an oil drain pan under the automatic transmission "in radiator" cooler Inlet and Outlet
hoses.
2. Clean the exterior and tip of the cooler Inlet hose.
3. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-AM006) into the Outlet hose of the oil cooler in the radiator (see Figure 4).
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath vapors or mist from spray.
4. Hold the hose and can as high as possible and spray Transmission Cooler Cleaner in a
continuous stream into the cooler Outlet hose until fluid flows out of the cooler Inlet hose for 5
seconds.
NOTE:
For Quest vehicles (V40/V41 Models);
Page 2845
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7554
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Page 4155
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6013
Ground Distribution
Page 1391
Alignment: By Symptom
Technical Service Bulletin # 08-097D Date: 110426
Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
Page 4493
Description (Part 1 Of 2)
Page 6380
NOTE: If "DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE" has been previously
conducted, always turn ignition switch "OFF" and wait at least 5 seconds before conducting the
next test.
TESTING CONDITION:
Always perform the test at a temperature of -10° C (14° F) or higher.
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Turn ignition switch "OFF" and
wait at least 5 seconds. (3) Start engine. (4) Select "TCC S/V FNCTN P1776" of "A/T (TCC S/N)" in
"DTC WORK SUPPORT" mode with CONSULT. (5) Touch "START". (6) When the following
conditions are met, "TESTING" will be displayed on the CONSULT screen. Maintain the conditions
continuously until
"TESTING" changes to "COMPLETED". (It will take approximately 20 seconds.) Selector lever: D
(OD "ON") Vehicle speed: 76 - 100 km/h (47 - 62 MPH) CMPS.RPM (REF): Less than 2,150 rpm
(Single cab model) Less than 2,300 rpm (King cab model) B/FUEL SCHDL: 2.5 - 5 ms THRTL POS
SEN: Less than 1.3V If "TESTING" is not displayed after 5 minutes, retry from step 2).
(7) Make sure that "OK" is displayed after touching "SELFDIAG RESULTS".
If "NG" is displayed, refer to "DIAGNOSTIC PROCEDURE".
OR
With Generic Scan Tool
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Select MODE 7 with GST.
OR
Page 7794
2. Remove tie rod from knuckle arm with Tool.
DISASSEMBLY
Idler Arm Assembly
- Apply coat of multi-purpose grease to bushing.
- Press bushing into idler body, and insert shaft of idler bracket carefully until bushing protrudes.
Relay Rod And Tie-Rod
1. When tie rod ball joints and tie rod bar are separated, adjust tie rod length correctly.
NOTE: Adjustment should be done between ball stud centers.
2. Lock tie rod clamp nut so that ball joint on outer ball stud is as follows with respect to that on
inner ball stud.
Standard length "L" (2WD): 343.9 mm (13.54 inch)
Page 6847
Wheel Hub (Locking): Service and Repair Auto Lock Free Running Hub
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 8808
F. Inspect for damage using fluorescent light source and magnification. If spots are removed, clean
affected panels.
G. Use abrasive cleaning on test section to remove up to 0.5 mil of damaged top/clear coat.* If
damage is less than 0.5 mil deep, clean affected panels with abrasive method. After polishing,
inspect for swirl marks using halogen lights. If damage is more than 0.5 mil deep, the affected
panels must be repaired either by re-clear, re-color/clear coat, or re-color coated (on vehicles with
no final clear coat).
A. Wash Procedure
Wash Equipment and Materials:
Spray wash system (a mobile or stationary unit with hand held spray similar to a coin operated car
wash that provides soap solution, rinse water and de-ionized final rinse).
Car wash detergent containing no phosphates, (Nissan P/N 999MP-A3100).
Clean 100% cotton terry cloth towels.
De-ionized water for the final rinse. De-ionized water is highly recommended as it reduces water
spotting. De-ionizing cylinders can be purchased or rented from water purification companies
1. During the summer months, the early morning hours are the best time to wash a car unless you
can wash and dry it in the shade. Never wash a car under the hot sun. All paint is subject to water
spot damage when washed under the sun due to high surface temperature.
2. Thoroughly rinse oft the surface dirt and foreign materials with a spray of clean tap water.
3. Gently apply detergent and water solution (Nissan P/N 999MP-A3100), keeping it wet for 4-5
minutes. To avoid scratching the finish, do not rub, gently move the solution around with light
pressure. Do not allow the solution to dry before rinsing. Use, clean warm water and a clean terry
cloth towel. Frequently rinse off the terry cloth towel to avoid scratches from entrapped dirt.
Replace the towel with a clean one once it becomes soiled.
Caution:
When washing a convertible rear window use gentle horizontal and vertical strokes, do not use a
circular motion.Use a clean terry cloth towel. Also refer to NTB92-092 for additional information on
convertible wash procedure.
4. Rinse with a spray of clean tap water. Make sure all detergent is flushed off the body. If soap
dries on the convertible rear window or some moldings it may cause streaking. Use a spray of
de-ionized water for the final rinse.
5. Use a clean damp terry cloth towel and gentle pressure to remove the majority of the rinse water
allowing the remaining water film to air dry. Replace the towel frequently to avoid scratches from
entrapped dirt.
6. Always wash, rinse, and dry a vehicle beginning with the roof and glass. Then the hood and
trunk followed by the vertical surfaces. Wash, rinse, and dry one section at a time if low humidity
causes fast drying. Do not allow soap solution or rinse water to dry on the finish.
B. Identifying Contamination
Examine the vehicle in both strong sunlight and indoor fluorescent lighting (inspection is easier with
a hand held 500 watt halogen lamp or a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is most easily done with a
8X and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Page 3987
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7462
Power Supply Routing: Schematic (Part 2 Of 2)
Page 9527
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Specifications
Firing Order: Specifications Firing order
Firing order
Firing order 1-3-4-2
Page 6853
2. To confirm proper assembly after the replacement center bearing is installed, check the
alignment of the front and middle u-joints (see Figure 2).
If there is vibration after the propeller shaft is re-assembled, re-check the propeller shaft alignment
(Figure 2, above).
PARTS INFORMATION
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. A claim to Nissan for the repair of this
incident may be denied if the repair is not performed exactly as outlined in this bulletin.
Submit a Primary Failed Part (PP) line using the claims coding as shown.
1. Reference the "Parts Information" table above and use the indicated "Center Bearing Kit" P/N as
the PFP.
2. As indicated by the customer complaint.
3. As indicated by the technician's diagnosis.
A/C - System Receiver Drier Replacement Guidelines
Receiver Dryer: Technical Service Bulletins A/C - System Receiver Drier Replacement Guidelines
Classification: HA98-006
Reference: NTB98-106
Date: January 1, 1999
NEW A/C SYSTEM RECEIVER DRIER REPLACEMENT GUIDELINES
APPLIED VEHICLE(S): All Models with R-134a refrigerant
SERVICE INFORMATION
The receiver drier (liquid tank) in the A/C system filters, dries and temporarily stores refrigerant
received from the condenser. The receiver drier "tank" is equipped with a strainer that will retain
most foreign material and prohibit it from circulating through the system.
The receiver drier currently used in the Nissan R-134a A/C systems has an operating life of
approximately ten years. It is not necessary to replace the drier in an R-134a system during routine
service.
In the older R-12 air conditioning systems, a small amount of moisture would enter the refrigerant
system over time, requiring frequent receiver drier replacement. Improvements in the newer
R-134a systems drastically reduce the amount of moisture that is able to enter the system,
therefore extending the life of the receiver drier. The current R-134a systems incorporate improved
drying agents, compressor lip seals, non-permeable hoses and captured O-rings on most system
connections.
The following service procedure provides recommendations and guidelines that support the
extended life of the R-134a A/C systems.
SERVICE PROCEDURE
Whenever the receiver drier or any A/C hose is disconnected for servicing always cover the
exposed ports to prevent debris and moisture from entering the unit (see Figure 1 for inlet and
outlet port location).
The A/C receiver drier in an R-134a system should be replaced only if:
1. The compressor is seized;
2. System oil contains metallic flakes;
3. Diagnosis indicates a major blockage.
Page 3180
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5068
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 524
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4452
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5407
Fuel Injector: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4461
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4666
Ground Distribution
Page 9252
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2612
Ground Distribution
Page 5272
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6486
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1018
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4373
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3380
Page 5988
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4440
Type Of Standardized Relays (Part 2 Of 2)
Wheels/Tires - Accessory Wheel Lock
Installation/Removal
Wheel Fastener: Technical Service Bulletins Wheels/Tires - Accessory Wheel Lock
Installation/Removal
Classification: WT09-002
Reference: NTB09-056
Date: July 14, 2009
ACCESSORY WHEEL LOCKS INSTALLATION AND REMOVAL
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Always use hand tools when installing or removing accessory wheel lock nuts.
WARNING:
Do not use power tools to install or remove accessory wheel lock nuts.
Use of an impact wrench or other power tool may cause permanent damage to the wheel lock nut
and/or key.
CLAIMS INFORMATION
Accessory wheel locks, wheel lock keys, or vehicle wheels that are damaged due to improper
installation or removal will not be considered a manufacturer defect and will not be covered under
warranty.
Accessory Wheel Lock Installation / Removal Guidelines
^ For ease of removal, the wheel lock nut should always be the first lug nut removed.
^ If needed, clean threads on lug studs with a wire brush.
^ The wheel lock nut should always be the last lug nut tightened.
^ Always use the special key supplied in the wheel lock set to install and remove the wheel locks.
^ Always tighten the wheel lock nuts using a hand torque wrench to the torque specification in the
Service Manual.
Disclaimer
Component Locations
Page 6168
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1474
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 281
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2368
Attachment General Procedure
Page 5888
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3728
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Driveshaft - Center Bearing Replacement Procedure
Center Support: Technical Service Bulletins Driveshaft - Center Bearing Replacement Procedure
Classification: PD99-002
Reference: TB00-025
Date: March 10, 2000
1998-2000 FRONTIER AND 2000 XTERRA PROPELLER SHAFT CENTER BEARING
REPLACEMENT
APPLIED VEHICLES: 1998-2000 Frontier (D22) 2000 Xterra (WD22)
SERVICE INFORMATION If the propeller shaft center bearing must be replaced on a 1998-2000
Frontier or 2000 Xterra, center bearing kits are now available as shown in the PARTS
INFORMATION Section of this bulletin.
Use the appropriate Service Manual for details on disassembly and re-assembly of the propeller
shaft, but be sure to align the shaft as shown in Propeller Shaft Alignment instructions below.
NOTE:
This is the ONLY approved repair procedure for this incident. A claim to Nissan for the repair of this
incident may be denied if the repair is not performed exactly as outlined in this bulletin.
Propeller Shaft Alignment:
It is very important that alignment be marked when disassembling the two parts of the propeller
shaft. Failure to ensure propeller shaft alignment throughout the service procedure may affect
balance of the propeller shaft.
1. When disassembling the propeller shaft, place an alignment mark on the propeller shaft and
yoke (see Figure 1).
Page 8927
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6770
Axle Shaft: Application and ID
AVAILABLE DRIVESHAFT SNAP RINGS
Thickness And Part No.
1.1 mm (0.043 inch) .............................................................................................................................
................................................. 39253-88 G10 1.3 mm (0.051 inch) ...................................................
........................................................................................................................... 39253-88 G11 1.5
mm (0.059 inch) ...................................................................................................................................
........................................... 39253-88 G12 1.7 mm (0.067 inch) .........................................................
..................................................................................................................... 39253-88 G13 1.9 mm
(0.075 inch) ..........................................................................................................................................
.................................... 39253-88 G14 2.1 mm (0.083 inch) ................................................................
.............................................................................................................. 39253-88 G15 2.3 mm
(0.091 inch) ..........................................................................................................................................
.................................... 39253-88 G16
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: All Technical Service Bulletins MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 5884
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 4581
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7019
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2996
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 8373
5. Peel off the top (smaller) backing sheet from one of the fluorine resin tapes (see Figure 5).
^ Two fluorine resin tape pieces are provided in the kit.
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
6A.
NOTE:
^ The sticky half should be down, toward the floor of the vehicle.
^ The unexposed (not sticky yet) half should be up, toward the ceiling of the vehicle.
Note the following before performing steps 7 and 8:
^ Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned.
^ Take care to properly attach the tape to the "D" ring.
^ Center the tape correctly on the "D" ring and smoothly apply it to the "D" ring surface so that no
wrinkles or ridges are present.
^ Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D"
ring. If this should occur, replace the tape with a new piece.
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 6B).
Page 5044
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 753
Type Of Standardized Relays (Part 2 Of 2)
Page 8901
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 5013
Page 3783
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5619
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Engine - Rattle Noise After Overnight Cold Soak
Timing Chain Tensioner: All Technical Service Bulletins Engine - Rattle Noise After Overnight Cold
Soak
Classification: EM99-001
Reference: NTB99-079
Date: October 28, 1999
1998-99 FRONTIER RATTLE NOISE AFTER OVERNIGHT COLD SOAK
APPLIED VEHICLE: 1998-1999 Frontier (D22) With KA24DE Engine
APPLIED ENGINE #: Prior to KA24-816611
SERVICE INFORMATION
Use this bulletin to perform repairs if an applied 1998 or 1999 Frontier equipped with a KA24DE
engine exhibits a rattle noise after sitting overnight (cold soak). The noise this bulletin addresses
would be evident in the valve cover area, and would last about three seconds. The noise would not
occur again until another overnight cold soak.
SERVICE PROCEDURE
Diagnose
This incident, if it occurs, would only be heard after an overnight soak. If a rattle noise can be
duplicated while the engine is warm, this bulletin does not apply. Refer to engine noise diagnoses.
Repair
Use the following procedure to replace the cam bracket bolts and upper chain tensioner:
1. Remove the valve cover and place a rag under the cam sprocket to prevent parts from falling
down into the timing cover.
2. Starting at the front cam bracket on the intake cam, remove the two bolts securing the cam
bracket to the head (see Figure 1). It is not necessary to remove the cam bracket.
3. Install two new (Counter Measure) bolts (P/N 13058-2J203) finger tight.
Page 3642
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 8575
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4739
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2224
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1265
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Specifications
Page 6250
Torque Converter Clutch Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Front Heated Oxygen Sensor
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor
COMPONENT DESCRIPTION
The front heated oxygen sensor is placed into the exhaust manifold. It detects the amount of
oxygen in the exhaust gas compared to the outside air. The front heated oxygen sensor has a
closed- end tube made of ceramic zirconia. The zirconia generates voltage from approximately 1V
in richer conditions to 0V in leaner conditions. The front heated oxygen sensor signal is sent to the
ECM. The ECM adjusts the injection pulse duration to achieve the ideal air-fuel ratio. The ideal
air-fuel ratio occurs near the radical change from 1V to 0V.
Page 4557
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 119
34. CAN diagnosis will run again. When it reaches 51% and the icons light, click on the
"Duplication Test" icon.
35. When the screen in Figure 18 appears, click on All Erase.
36. Click on Yes (see Figure 18).
37. Use the scroll bar to scroll down the page and make sure all DTCs are erased.
^ For any DTCs that do not erase: diagnose, perform repairs, and erase DTCs.
^ Refer to the Service Manual as needed.
Reprogramming is finished. Continue with the Procedure below.
38. Close C-III, then turn the ignition OFF.
39. Make sure the throttle is released and your foot is NOT pressing either the brake or clutch
(M/T) pedal;
Page 8931
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Checking Electrolyte Level
Battery: Testing and Inspection Checking Electrolyte Level
WARNING: Do not allow battery fluid to come in contact with the skin, eyes, fabrics. or painted
surfaces. after touching a battery, do not touch or rub your eyes until you have thoroughly washed
your hands. If acid contacts eyes, skin or clothing, immediately flush with water for 15 minutes and
seek medical attention.
Normally the battery does not require additional water. However, when battery is used under
severe conditions, adding distilled water may be necessary during battery life.
^ Remove the cell plug using a suitable tool. ^ Add distilled water up to the MAX level.
Page 6424
NOTE: If "DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE" has been previously
conducted, always turn ignition switch "OFF" and wait at least 5 seconds before conducting the
next test.
TESTING CONDITION:
Always perform the test at a temperature of -10° C (14° F) or higher.
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Turn ignition switch "OFF" and
wait at least 5 seconds. (3) Start engine. (4) Select "TCC S/V FNCTN P1776" of "A/T (TCC S/N)" in
"DTC WORK SUPPORT" mode with CONSULT. (5) Touch "START". (6) When the following
conditions are met, "TESTING" will be displayed on the CONSULT screen. Maintain the conditions
continuously until
"TESTING" changes to "COMPLETED". (It will take approximately 20 seconds.) Selector lever: D
(OD "ON") Vehicle speed: 76 - 100 km/h (47 - 62 MPH) CMPS.RPM (REF): Less than 2,150 rpm
(Single cab model) Less than 2,300 rpm (King cab model) B/FUEL SCHDL: 2.5 - 5 ms THRTL POS
SEN: Less than 1.3V If "TESTING" is not displayed after 5 minutes, retry from step 2).
(7) Make sure that "OK" is displayed after touching "SELFDIAG RESULTS".
If "NG" is displayed, refer to "DIAGNOSTIC PROCEDURE".
OR
With Generic Scan Tool
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Select MODE 7 with GST.
OR
Page 4058
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2425
Page 5854
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 667
Oxygen Sensor: Electrical Diagrams
Circuit
EC-FRO2-01 Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Diagrams
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Page 5916
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 7189
Brake Shoe: Testing and Inspection
Measuring Brake Lining
- Check lining thickness.
Standard lining thickness: 6.1 mm (0.240 inch) Lining wear limit: 1.5 mm (0.059 inch)
Page 5053
Type Of Standardized Relays (Part 2 Of 2)
Page 4205
Description (Part 1 Of 2)
Page 2901
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5890
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4222
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4662
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Locations
Brake Warning Indicator: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 7611
Alignment: Specifications Caster
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 1°40' (1.67°) Nominal ......................................................................
............................................................................................................................. 2°10' (2.17°)
Maximum .............................................................................................................................................
.................................................... 2°40' (2.67°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Page 9276
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4248
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4097
Description (Part 1 Of 2)
Page 8021
Page 147
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6394
Description (Part 1 Of 2)
Page 2634
Description (Part 1 Of 2)
Page 7528
2. Position vehicle on the front turn plates as follows:
^ Stop vehicle just behind the turn plates.
^ Center the turn plates to the tires.
^ Move the vehicle onto the turn plates by turning/pushing the rear wheel.
DO NOT push/pull on the vehicle body.
Page 3797
Optional Splice
Example Diagrams
Page 1997
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 8937
Ground Distribution
Page 9450
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5483
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5563
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6536
Rental Vehicle Expense Assistance:
If the customer is unable to wait for the vehicle to be repaired or if the dealer does not have the
replacement A/T shifter assembly in inventory, rental vehicle assistance may be submitted using
expense code 502. The maximum dollar reimbursement is $30 per day for up to two (2) days
($60.00 total). Replacement parts must be ordered through the Customer Care process.
Service Procedure
1. Record the radio presets.
2. Disconnect the negative battery cable.
3. Remove the steering column upper and lower covers by removing the (5) screws from the
underside and the garnish around the key switch. Carefully snap apart the covers and lift them out.
4. Remove the screw located above the hood release lever and the screw located under the
parking brake lever. Carefully unsnap the panel underneath the instrument cluster and remove the
driver's side lower instrument panel by lifting and pulling it forward (See Figure 2).
5. Remove the driver's side lower knee protector bar by removing the (2) 6mm bolts and then
removing the bar (see Figure 3).
Page 4510
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3334
Ground Distribution
Page 1580
PARTS INFORMATION
CLAIMS INFORMATION
For Bracket Installation Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Bracket Installation and Hose Angle Adjustment Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Evacuate Replace A/C Low Hose and Recharge System:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Additional Expenses for P81633 ONLY.
Information
Page 2897
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 120
40. Operate the ignition as shown in Figure 19.
NOTE:
For Hybrid vehicles, ignition ON = dash warning lights ON and the "READY" light OFF.
^ The above ignition cycle will reset ECM self learned Data.
41a. For Hybrid vehicles, skip to step 42.
41b. Start the engine and check the idle speed.
^ If idle speed is too low, perform Idle Air Volume Learning (IAVL). See the appropriate Service
Manual (ESM) for this procedure.
NOTE:
If the engine will not idle, hold the engine RPM at about 2000, then slowly bring it down to an idle.
IAVL can now be performed.
42. Test drive the vehicle; make sure it is operating correctly and the Check Engine light is OFF.
^ If the Check Engine light comes ON; diagnosis, repair, and erase DTCs.
Page 3100
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3305
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1398
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
Page 1115
Optional Splice
Example Diagrams
Specifications
EGR Temperature Sensor: Specifications
Resistance 7.9 - 9.7 M ohms at 32 deg F
0.57 - 0.70 M ohms at 122 deg F
0.08 - 0.10 M ohms at 212 deg F
Voltage 4.81 VDC at 32 deg F
2.81 VDC at 122 deg F
0.8 VDC at 212 deg F
Page 2828
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Testing and Inspection
System Relay: Testing and Inspection
Check circuit continuity between terminals by supplying 12 Volts to coil side terminals of air
conditioner relay.
Page 6870
Part 3 of 4
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Capacity Specifications
Coolant: Capacity Specifications
Specified amount [1] ............................................................................................................................
.................................................... 9.5 qts. (9.0 Liters)
[1] with reservoir
Page 4500
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1596
Brake Fluid: Testing and Inspection
- Check fluid level in reservoir tank. It should be between Max and Min lines on reservoir tank.
- If fluid level is extremely low, check brake system for leaks.
- If the brake warning lamp comes on, check brake fluid level switch and parking brake switch.
Page 8571
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7838
Suspension Spring ( Coil / Leaf ): Service and Repair
REMOVAL
Page 116
In the Administrator window select My Computer.
In the My Computer screen select Local Disc (C).
In the Local Disc (C) screen select Consult III folder.
In the Consult III screen/folder select ApplicationData folder.
In the ApplicationData screen/folder select PrintImages folder.
When the file was saved it was automatically given a file name using the current date and time.
Select and print the file/screen image that you want.
NOTE:
During reprogramming DTCs will set in several systems. DTCs must be erased from all systems.
Erase DTCs from all systems
22. Click on the "Home" icon (top left corner of the C-III screen).
23. Wait for the "Detecting VI/MI in progress" message to clear.
24. Select the detected VI from the list. (See Figure 12.)
25. Select Connect.
26. Wait for the "Checking the firmware version" message to clear.
Page 4144
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5186
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6209
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5375
When the resistance of engine coolant temperature sensor is 0.26 to 0.39 k ohms, make sure that
the center of mark (A) is aligned with mark (B) as shown in the figure. -
If NG, adjust by turning adjusting screw.
Adjusting screw tightening torque: 0.98 - 1.96 N.m (10 - 20 kg-cm, 8.7 - 17.4 in-lb)
With Consult
4. Stop engine. 5. Turn ignition switch "ON" and see "COOLAN TEMP/S" in "DATA MONITOR"
mode with CONSULT.
6. When engine coolant temperature is 25±5°C (77±9°F), make sure that the center of mark (A) is
aligned with mark (C) as shown in the figure.
OR
Without Consult
5. When the resistance of engine coolant temperature sensor is 1.65 to 2.40 k ohms, make sure
that the center of mark (A) is aligned with mark (C) as
shown in the figure. If NG, replace thermo-element and perform the above inspection and adjustment again.
Page 2501
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7435
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2939
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3692
Page 9541
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 556
Description (Part 1 Of 2)
Page 4991
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Page 1685
^ The graph on the following page shows that PAG oil left open to air (e.g. in an unsealed
container) will absorb 2% moisture (by weight) in 120 hours (5 days).
^ PAG containers, and any A/C component which contains PAG oil (such as the compressor)
should remain tightly capped and sealed until ready for use.
^ If you believe that a container of PAG oil may not have been adequately re-sealed after opening,
dispose of the oil properly and use oil from a new sealed container.
^ When installing or servicing an A/C system, the refrigerant tube and hose connections should be
sealed (all connections made and tightened to specification) without delay.
^ The above precautions will keep the absorption of moisture into the system to a minimum. Using
moisture saturated PAG oil in R-134a systems may lead to the formation of acids and related
system damage or failure.
^ Do not allow refrigerant oil (Nissan A/C System Oil Type S) to contact styrofoam, as the lubricant
will damage this material.
Instruments - Fuel Gauge Inaccurate
Speedometer Module: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 6196
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3527
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2498
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2418
Engine Control Module: Testing and Inspection
ECM HARNESS CONNECTOR TERMINAL LAYOUT
Page 257
Wheel Speed Sensor: Specifications
Front: Sensor 13-17 ft.lb
Cable 39.1-51.2 in.lb
Rear Sensor (At Backing Plate) 13-17 ft.lb
Page 5101
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Connecting Rod Cap Torque
Connecting Rod: Specifications Connecting Rod Cap Torque
TORQUE VALUES
Motor Mounts
Outer Components
Page 9167
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7030
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7840
NOTE: Tighten U-bolts so that the lengths of all U-bolts under spring pad are the same.
5. Install shock absorber, and finger tighten the nuts.
6. Remove stands and bounce the vehicle to stabilize suspension to an unladen state.
7. Tighten spring shackle nuts, front pin nuts and shock absorber nuts.
NOTE: When installing rubber parts, final tightening must be carried out under unladen condition
with tires on the ground. Unladed is fuel, radiator coolant and engine oil full. Spare tire, jack, hand
tools and mats in designated positions.
Page 3171
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2784
EC-FRO2-01 Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Diagrams
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Page 4541
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3037
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 194
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7527
^ Make sure the rear slide plates:
> Do not wobble (no up/down movement).
> Operate (slide) smoothly in all directions.
If there is any issue with the slide plate operation - have the equipment repaired before performing
any alignments.
5. Make sure the lock pins for the front "turn plates" and rear "slide plates" are in place.
NOTE:
Lock pins should remain in place until caster sweep.
The Alignment Process
The Alignment Process
IMPORTANT:
Use only the alignment specifications listed in the appropriate Service Manual when adjusting the
alignment.
1. Make sure the vehicle is straight on the alignment rack.
^ Vehicle must be straight (in line) with the alignment rack before entering the rack as shown in
Figure 4.
^ Do not straighten the vehicle while on the rack (see Figure 5).
^ If the vehicle needs to be straightened, exit the alignment rack, straighten the vehicle and then
re-enter the rack.
^ Once the vehicle is straight on the rack, do not turn/center the steering wheel-keep the front
wheels straight.
Page 1684
Comments regarding PAG refrigerant oils:
^ PAG oil absorbs moisture from the air at an exceptionally fast rate, and moisture can damage the
A/C system.
Page 2847
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3384
Overall inspection sequence
Page 3776
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2638
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1002
Description (Part 1 Of 2)
Page 542
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5499
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1769
Locations
Multiple Junction Connector: Locations
Passenger Compartment (Part 1 Of 2)
Page 2769
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4111
Ground Distribution
Page 2402
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 494
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4798
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9066
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Air Bag - Harness Replacement, Not Repair
Air Bag Harness: All Technical Service Bulletins Air Bag - Harness Replacement, Not Repair
Classification: RS97-002
Reference: NTB97-017
AIR BAG HARNESS REPLACEMENT
APPLIED VEHICLE(S) ALL
SERVICE INFORMATION
The next update to the Warranty Flat Rate Manual will include the following correction to the RQ
section regarding the air bag harness:
WAS:Repair the Air Bag Harness RQ30AA
IS: Replace the Air Bag Harness RQ30AA
DO NOT ATTEMPT TO REPAIR, SPLICE OR MODIFY ANY AIR BAG HARNESS UNDER ANY
CIRCUMSTANCES.
Refer to the RS section of the appropriate service manual for SRS diagnostic/inspection
information.
Page 4115
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3989
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7967
Print this page and keep it by your tire mounting equipment
Page 8176
Make sure the tank is properly positioned/seated (especially after moving the ACR4 machine) on
the scale platform and that it does not touch surrounding components (such as the back bar,
hoses, etc.). Also, make sure the weight scale platform securing screw is properly tightened.
Residual Refrigerant
Recover all residual refrigerant from the hoses before connection to the vehicle.
Residual Refrigerant Oil
Drain all refrigerant oil from the oil separator (see Figure 4) before recovering refrigerant. This
prepares the oil separator to measure the amount of oil removed during the recovery process.
Disturbing the ACR4 Machine
Do not disturb or touch the ACR4 machine when it is recovering or recharging as this will upset the
weight scale and cause the machine to record an inaccurate recovery amount and/or dispence an
incorrect charge.
Transfer All Refrigerant to Vehicle
Use the following steps to ensure all of the refrigerant charge is transferred to the vehicle's A/C
system.
1. When the display shows "CPL" (charge is complete), close the control panel high side valve
(both control panel high and low side valves should now be closed).
2. Start the vehicle and let the A/C run until the gauge readings stabilize. Check for cold air at the
vents.
3. With the compressor running, close the high side (red) coupler valve (on the end of the high side
hose) and disconnect it from the vehicle.
4. Open the control panel high and low side valves. This will allow the residual refrigerant to be
drawn into the vehicle's A/C system through the low (blue) hose.
5. Close the low side (blue) coupler valve (on the end of the low side hose) and disconnect it from
the vehicle.
NOTE: If your dealership purchases R134a in small, disposable (12 oz) cans, do not charge the
vehicle's A/C system with the can directly. Transfer the refrigerant from the small can to the ACR4
refrigerant tank (see page 17 of the ACR4 Operating Instruction Manual). Charging the A/C system
directly from the 12 oz refrigerant can (using a "can tap" gauge set) will not properly control the
weight of refrigerant being transferred. This will result in an overcharge or undercharge condition
and improper A/C performance.
Page 641
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9179
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6363
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7826
5. After installing drive shaft, check drive shaft axial end play. (4WD)
Do not reuse snap ring once it has been removed.
Refer to Axle Shaft Assembly, Constant Velocity Type / Service and Repair.
Page 1648
Power Steering Fluid: Fluid Type Specifications
Automatic Transmission Fluid
......................................................................................................................................................
Dexron III, Or Equivalent
Page 694
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3360
Page 4502
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3014
Vehicle Speed Sensor: Electrical Diagrams
EC-VSS-01 Vehicle Speed Sensor (VSS) (DTC: P0500)
Circuit Diagrams
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor Circuit (VSS) Connectors
Page 3939
Ground Distribution
Page 8515
^ Re-programming of additional remote controllers is not covered by warranty.
^ Remote controller replacement due to customer abuse, purse/pocket damage, and/or loss is not
covered by warranty.
^ The replacement of the remote controller battery is not covered by warranty.
Service Procedure
For 1998-2000 Maxima, Pathfinder, Sentra, Altima, and Frontier Vehicles 2000 Quest and Xterra
Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
B. Insert and remove the ignition key more than 6 times within a 10 second period (at a rate of one
insertion/removal cycle per second). The key should be withdrawn from the ignition key cylinder
completely each time it is removed.
NOTE:
Do not rush the insertion/removal key cycling process.
C. Turn the ignition key to the "ACC" position. The ignition key should remain in the "ACC" position
throughout the remainder of the programming, including programming of additional remote
controllers.
D. Press any button on the remote controller one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when this step is accurately completed and programming
is successful. For 2000 Quest vehicles, the side marker/tail/license lamps will flash twice when
programming is successful.
E. If you are programming only one remote, proceed to step 3A. If programming additional
remotes, continue with step 2A, below.
2. Programming Additional Remote Controllers (Maximum of 4 Remotes):
A. Remain inside the vehicle after programming the first remote.
B. Use the driver's power door lock-unlock switch to unlock and then lock the doors.
C. Press any button on one of the additional remote controllers one time.
NOTE:
Do not press the button more than one time in the above step. If the button is pressed more than
one time, the programming procedure will not be successful.
The hazard warning lights will flash twice when programming is successful. For 2000 Quest
vehicles, the side marker/tail/license lamps will flash twice when programming is successful.
If there is more than one additional remote to be programmed, repeat steps 2A through 2C above
for each additional remote.
3. End Programming:
A. Remove the key from the ignition.
B. Use the door lock-unlock switch on the driver's door to unlock the doors. Open the driver's door
to complete the programming
C. Check the operation of each of the remote controllers by locking/unlocking the doors with each
remote controller you have programmed.
For 1999 Quest Vehicles:
1. Programming Procedure:
A. Get in the vehicle. Close and lock all doors using the driver's power door lock-unlock switch.
Page 4674
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5542
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9362
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4214
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3984
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8692
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 398
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5493
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3954
Oxygen Sensor: Electrical Diagrams
Circuit
EC-FRO2-01 Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Diagrams
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Page 5491
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Diagram Information and Instructions
Ignition Control Module: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6300
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7964
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Page 3444
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
A/C - Idler Pulley Whine Noise at 3000 rpm
Drive Belt: Customer Interest A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 4586
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
A/T - Fluid Application
Fluid - A/T: Technical Service Bulletins A/T - Fluid Application
Classification: AT96-001
Reference: NTB98-042
Date: May 15, 1998
AUTOMATIC TRANSMISSION FLUID
This amended version of NTB95-055 updates information regarding the Recommendation ATF
usage.
Please disregard previous NTB95-055 and NTB93-065.
SERVICE INFORMATION
IMPORTANT NOTE:
Nissan Matic "D" ATF must be used in performing repairs paid by Nissan, such as warranty,
service contract, or goodwill repairs. Nissan will not reimburse dealers for repairs when
non-genuine Nissan Matic "D" is used.
For current and prior production Nissan vehicles, front wheel and/or rear wheel drive, only Nissan
Matic "D", or other ashless petroleum based ATF, is formulated to meet the requirements of Nissan
automatic transmissions and automatic transaxles. Nissan Matic "D", or other ashless petroleum
based ATF, assists in ensuring transmission durability, smooth driveability, low exhaust emissions
and customer satisfaction.
Only an ashless type petroleum based ATF should be used to repair Nissan vehicles because
other types of ATF may contain compounds which adversely affect transmission performance.
Specifically, ash will impact friction response. In addition, ATF with ash is likely to have a higher
Zinc (Zn) content. Zinc will adhere to clutch linings and cause slippage, resulting in transmission
damage.
For ordering procedures, please refer to the "Dealer Confidential Parts Price List".
Page 5975
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6597
Page 3669
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4868
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 5418
Fuel Injector: Description and Operation
COMPONENT DESCRIPTION
The fuel injector is a small, precise solenoid valve. When the ECM supplies a ground to the injector
circuit, the coil in the injector is energized. The energized coil pulls the needle valve back and
allows fuel to flow through the injector into the intake manifold. The amount of fuel injected
depends upon the injection pulse duration. Pulse duration is the length of time the injector remains
open. The ECM controls the injection pulse duration based on engine fuel needs.
Page 8889
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 4732
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7353
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6044
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2618
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3015
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Paint - Refinish Paint Codes/Cross Reference
Paint: All Technical Service Bulletins Paint - Refinish Paint Codes/Cross Reference
Classification: BT97-004
Reference: NTB97-052
Date: July 30, 1997
1998 MODEL REFINISH PAINT CODES
APPLIED VEHICLES: All
SERVICE INFORMATION
Page 7583
SPECIAL TOOLS
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
Page 5115
Leak Detection Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 9125
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3649
Description (Part 1 Of 2)
Testing and Inspection
Air Conditioning Switch: Testing and Inspection
Check continuity between terminals at each switch position.
Page 3773
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7412
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Diagram Information and Instructions
Oxygen Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6969
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7191
Brake Shoe Removal
2. After removing retainer, remove spring by rotating shoes.
NOTE: ^
Be careful not to damage wheel cylinder piston boots.
^ Be careful not to damage parking brake cable when separating it.
3. Remove adjuster 4. Disconnect parking brake cable from toggle lever.
Toggle Lever Pin Removal
5. Remove retainer clip with a suitable tool. Then separate toggle lever and brake shoe.
INSTALLATION
1. Fit toggle lever to brake shoe with retainer clip.
Grease Contact Areas
2. Apply brake grease to the contact areas shown. 3. Shorten adjuster by rotating it.
Locations
Power Window Relay: Locations
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2992
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1832
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Page 6608
1. Inspect the coffee filter for debris (see Figure 12).
A. If small metal debris less than 1 mm (0.040 inch) in size or metal powder is found in the coffee
filter, this is normal. If normal debris is found, the radiator/oil cooler can be re-used.
B. If one or more pieces of debris are found that are over 1 mm in size and/or peeled clutch facing
material is found in the coffee filter (see Figure 13), the oil-cooler is not serviceable. The radiator/oil
cooler must be replaced.
Final Inspection:
After performing all procedures, ensure that all remaining oil is cleaned from all components.
Page 5413
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Ignition - Distributor Rotor Replacement
Ignition Rotor: Technical Service Bulletins Ignition - Distributor Rotor Replacement
Classification: EC97-002a
Reference: NTB97-004a
Date: May 19, 1999
DISTRIBUTOR ROTOR REPLACEMENT
This amended version of NTB97-004 adds B14, D21, WD22, and L30 information to the Applied
Vehicles section. Please discard all paper copies of NTB97-004.
APPLIED VEHICLES: 1995-1999 Sentra (B14) - GA16DE Engine only 1995-1998 200SX (B14) GA16DE Engine only 1990-97 Truck (D21) - KA24 Engines only 1998-2000 Frontier (D22) KA24DE Engine only 1998-2000 Altima (L30) - All 2000 Xterra (WD22) - KA24DE Engine only
SERVICE INFORMATION Distributor rotors are now available as replacement parts for the
vehicles listed in the Applied Vehicles section of this bulletin. Order them as P/N 22157-4B000.
CAUTION:
The rotor hold-down screw securing the distributor rotor to the distributor shaft must be torqued to
32 +/- 3 in-lb (37 +/- 3 kg-cm). If not secured to the proper torque the rotor may come loose causing
the engine to stop without warning.
PARTS INFORMATION
Suspension - Steering Pull Diagnosis
Alignment: All Technical Service Bulletins Suspension - Steering Pull Diagnosis
Classification: ST01-003
Reference: NTB01-083
Date: November 28, 2001
1998-2002 FRONTIER AND 2000-2002 XTERRA STEERING PULL DURING BRAKING
APPLIED VEHICLES: 1998-2002 Frontier (D22) 2000-2002 Xterra (WD22)
SERVICE INFORMATION
If an applied Frontier or Xterra exhibits a slight steering pull (left or right) during:
^ Moderate application of the brakes to bring the vehicle to a complete stop from a speed of
between 20 and 30 mph.
The following steps should be performed in order given;
1. The vehicle suspension should be inspected.
2. Vehicle ride height should be checked.
3. Alignment should be checked to ensure that all measurements are within factory specifications.
When performing an alignment, refer to the appropriate Electronic Service Manual (ESM) for
specifications and adjustment procedures.
Page 6755
The Rear Axle Bearing Removal Kit (P/N J-45073) shown is an essential tool and will be
automatically sent to all Nissan dealers.
The Service Procedure provides instructions for using the new "Rear Axle Bearing Removal Kit"
P/N J-45073 for removing the pressed-on components mentioned above.
Service Procedure
ABS Rotor Ring Removal (if equipped)
1. Remove the rear axle from the vehicle using the procedure listed in the applicable service
manual. Stand the axle up on its wheel studs (splined end of the axle is facing upward).
2. Remove the ABS Rotor Ring (using the components in the J-45073 kit) as follows:
A. Slide the sleeve P/N J-25852-4 over the extension tube P/N J-45073-12 (see Figure 1a).
B. Slide the extension tube P/N J-45073-12 (with sleeve P/N J-25852-4) over the vehicle's axle
shaft (see Figure lb).
Page 197
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5660
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Axle Shaft Assembly, Constant Velocity Type
Page 7740
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3259
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 904
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6212
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 5031
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6239
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2180
Spark Plug: Specifications Gap
Gap
Spark plug gap mm. 1.0-1.1
Spark plug gap in. 0.039-0.043
Page 7445
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2508
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 8580
Ground Distribution
Page 1204
Ground Distribution
Page 6766
Axle Shaft: Fluid Type Specifications
Quality .................................................................................................................................................
..................... Nissan Genuine Grease, Or Equivalent
Page 1037
Optional Splice
Example Diagrams
Locations
Cruise Control Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 2294
Type Of Standardized Relays (Part 2 Of 2)
Page 8469
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Indicator
Passenger Air Bag Deactivation Switch Indicator
REMOVAL
Passenger Air Bag Module Deactivation Switch Indicator
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes
1. Remove meter cover. 2. Release passenger air bag deactivation switch indicator tabs from back
side of meter cover. 3. Remove passenger air bag deactivation switch indicator from front side of
meter cover.
INSTALLATION
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 1371
^ Center the front wheels on the turn plates.
^ Chock the left rear wheel.
Preliminary Checks:
3. Perform pre-alignment checks.
^ Tire condition (wear, partial wear, flaws, etc.)
^ Road wheel condition (damage and deformation)
^ Tire pressure
^ Inspect for visible damage to any suspension components
^ Wheel bearing axial play
^ Ball joints of suspension arms
^ Shock absorber operation and visual check for oil leakage
^ Condition of axle and suspension (check for bushing cracks and slack)
^ Vehicle weight
> Empty - no cargo, luggage, or passengers
> Fuel level is full
Page 5430
Fuel Pressure: Testing and Inspection
NOTE:
- When reconnecting fuel line, always use new clamps.
- Make sure that clamp screw does not contact adjacent parts.
- Use a torque driver to tighten clamps.
- Use Pressure Gauge to check fuel pressure.
- Do not perform fuel pressure check with system operating. Fuel pressure gauge may indicate
false readings.
1. Release fuel pressure to zero. 2. Disconnect fuel hose between fuel filter and fuel tube (engine
side).
3. Install pressure gauge between fuel filter and fuel tube. 4. Start engine and check for fuel
leakage.
5. Read the indication of fuel pressure gauge.
At idling:
With vacuum hose connected
Approximately 235 kPa (2.4 kg/cm.sq, 34 psi)
With vacuum hose disconnected
Approximately 294 kPa (3.0 kg/cm.sq, 43 psi)
If results are unsatisfactory, perform "Fuel Pressure Regulator Check".
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8188
Specifications
Mainshaft Bearing/Bushing: Specifications
MAIN DRIVE GEAR BEARING
OD MAINSHAFT BEARING (2WD MODEL)
Page 9525
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4757
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 8940
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9289
Ground Distribution
Page 6054
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 2598
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5355
Ground Distribution
Page 7736
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4081
Page 5635
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2928
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 869
Ground Distribution
Page 529
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 199
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9359
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1585
5. Retighten the joint connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Use a backup wrench on the low hose when tightening the joint connection nut.
Low Hose Bracket Installation
1. Separate the two halves of the bracket by removing the screw.
2. Install the two halves of the bracket on the compressor end of the A/C low hose at the tube bend
closest to the compressor flange (see Figure 6).
NOTE:
When installing the bracket, make sure the bracket half with the weld nut on the side points away
from the engine.
3. Install and tighten the bracket screw to 3.8 - 4.5 N.m (0.4 - 0.5 kg-m, 33 - 40 in-lb).
Page 5141
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3819
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1591
Power Steering Line/Hose: Specifications Model PB59K
Power Steering Line Flare Nut
............................................................................................................................................... 39 - 51
Nm (29 - 38 ft. lbs.)
Page 3060
Optional Splice
Example Diagrams
Page 4805
Control Units/Module
F29 Control Units/Module
Page 95
Page 272
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1140
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5700
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4494
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5185
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3251
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5063
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6334
In the Administrator window select My Computer.
In the My Computer screen select Local Disc (C).
In the Local Disc (C) screen select Consult III folder.
In the Consult III screen/folder select ApplicationData folder.
In the ApplicationData screen/folder select PrintImages folder.
When the file was saved it was automatically given a file name using the current date and time.
Select and print the file/screen image that you want.
NOTE:
During reprogramming DTCs will set in several systems. DTCs must be erased from all systems.
Erase DTCs from all systems
22. Click on the "Home" icon (top left corner of the C-III screen).
23. Wait for the "Detecting VI/MI in progress" message to clear.
24. Select the detected VI from the list. (See Figure 12.)
25. Select Connect.
26. Wait for the "Checking the firmware version" message to clear.
Page 2397
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5393
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3528
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2753
Description (Part 1 Of 2)
Page 748
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3985
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8708
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4028
Technical Service Bulletin # 09-029 Date: 090421
Engine Controls - CONSULTIII(R) ECM Programming
Classification: EC09-007
Reference: NTB09-029
Date: April 21, 2009
CONSULT-III ECM REPROGRAMMING PROCEDURE
APPLIED VEHICLES: All CONSULT-III (C-III) compatible Nissan vehicles
SERVICE INFORMATION
A complete step-by-step General Procedure for C-III ECM Reprogramming is now available in the
on-line version of this bulletin.
This General Procedure is also available via hyperlink from specific C-III symptom-based Technical
Service Bulletins in ASIST.
CAUTION
Part 1
Updated March 25, 2009
CONSULT-III (C-III) ECM REPROGRAMMING
A symptom based TSB is required before using this procedure.
IMPORTANT: Before starting, make sure:
^ ASIST on the C-III computer has been freshly synchronized (updated).
^ All C-III software updates (if any) have been installed.
NOTE:
The C-III computer automatically gets applicable ECM reprogramming data during ASIST
synchronization.
Spark Plug Torque Values
Spark Plug: Specifications Torque
Torque
Spark plug torque 14-22 ft. lb
Page 8159
PARTS INFORMATION
CLAIMS INFORMATION
For Bracket Installation Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Bracket Installation and Hose Angle Adjustment Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Evacuate Replace A/C Low Hose and Recharge System:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Additional Expenses for P81633 ONLY.
Information
Page 4744
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3664
Ground Distribution
Page 2219
Optional Splice
Example Diagrams
Page 7754
Type Of Standardized Relays (Part 2 Of 2)
Mechanical Specifications
Power Steering Pump: Mechanical Specifications
TIGHTENING SPECIFICATIONS
Connector ............................................................................................................................................
................................... 69 - 78 Nm (51 - 58 ft. lbs.) Connector Bolt .....................................................
.................................................................................................................. 49 - 69 Nm (36 - 51 ft. lbs.)
Mounting Bracket To Engine
................................................................................................................................................. 22 - 29
Nm (16 - 22 ft. lbs.) Pulley Bolt ............................................................................................................
................................................................. 54 - 68 Nm (40 - 50 ft. lbs.) Pump To Mounting Bracket:
Horizontal Bolt
.............................................................................................................................................................
16 - 21 Nm (11.6 - 15 ft. lbs.) Vertical Bolt ..........................................................................................
........................................................................... 27 - 37 Nm (20 - 27 ft. lbs.)
Rear Housing Bolts
......................................................................................................................................................... 14
- 18 Nm (120 - 156 inch lbs.) Suction Pipe ..........................................................................................
.......................................................................... 14 - 18 Nm (120 - 156 inch lbs.)
Page 6361
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1739
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 9234
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3978
Optional Splice
Example Diagrams
Page 3995
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4254
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5340
Optional Splice
Example Diagrams
Page 4467
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2894
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 922
EGR Temperature Sensor: Electrical Diagrams
EC-EGR/TS-01 EGR Temperature Sensor (DTC: P1401)
Circuit Diagrams
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 7742
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2495
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Testing and Inspection
Fuel Filler Cap: Testing and Inspection
FUEL TANK VACUUM RELIEF VALVE (Built into fuel filler cap)
1. Wipe clean valve housing. 2. Check valve opening pressure and vacuum.
Pressure: 16.0 - 20.0 kPa (0.163 - 0.204 kg/sq.cm, 2.32 - 2.90 psi)
Vacuum: -6.0 to -3.5 kPa (-0.061 to -0.036 kg/sq.cm, -0.87 to -0.51 psi)
3. If out of specification, replace fuel filler cap as an assembly.
CAUTION: Use only a genuine NISSAN fuel filler cap as a replacement. If an incorrect fuel filler
cap is used, the MIL may come on.
Page 3705
18. At this point, refer to the symptom based TSB that directed you to reprogram the ECM.
The symptom based TSB is required, in order to determine which reprogramming part number to
use.
19. Select Next
NOTE:
If the screen in Figure 8 appears, there is data stored in the VI. Select "Yes" to proceed with
Reprogramming.
Page 3690
Locations
Shift Interlock Solenoid: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 5852
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5237
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3916
13. Use compressed air to remove any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
14. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
15. Tilt the manifold/catalyst/front tube so that the metal debris falls out of the part.
16. Apply compressed air through the boss to blow out any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
17. Install the new sensor as described in the applicable Electronic Service Manual (ESM).
Page 6371
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4704
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3033
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6261
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4337
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Locations
EGR Tube: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2273
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4543
Ground Distribution
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 3814
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6963
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4788
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2283
Ground Distribution
Locations
Multiple Junction Connector: Locations
Passenger Compartment (Part 1 Of 2)
Page 1818
Axle Nut: Specifications Axle / Bearing Lock Nut
TIGHTENING SPECIFICATIONS
Mounting Screws .................................................................................................................................
.................................. 49 - 69 Nm (36 - 51 ft. lbs.)
Page 1106
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 8254
Thermal Limiting Fuse: Testing and Inspection Inspection
- When servicing, do not allow foreign matter to get into compressor.
- Check continuity between two terminals.
Page 4052
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Locations
Accessory Delay Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 8290
SRS Component Parts Location
Page 6485
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3476
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8589
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4421
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6561
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8060
Page 3533
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4528
Description (Part 1 Of 2)
Page 8742
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1939
Crankshaft: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Page 1438
Lower Arm Pivot Height "H" [1]: 45.5 - 49.5 mm (1.791 - 1.949 inch)
NOTE: Fuel, radiator coolant and engine oil full. Spare tire, jack, hand tools and mats in designated
positions.
- "H" is the distance from the center of lower link spindle to the bottom of tension rod attaching bolt.
Page 5280
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3944
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 756
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 6503
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 3893
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1847
Page 1407
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
Page 8417
12. Pull the seat belt back and forth against the tape-covered "D" ring to make sure that the tape is
firmly applied (see Figure 12).
13. Remove the binder clip from the seat belt.
14. Confirm that the seat belt moves smoothly and quickly through the "D" ring by latching and
unlatching it and allowing it to retract back into the retractor mechanism several times.
15. Repeat steps 1 through 14 of this procedure on the remaining front seat belt.
Page 2846
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Service Specifications
Page 4650
Optional Splice
Example Diagrams
Page 2489
Description (Part 1 Of 2)
Page 392
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1361
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 5807
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7405
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Specifications
Clutch Fluid: Specifications
Specified type [1]
.................................................................................................................................................
Genuine Nissan Brake Fluid or equivalent
[1] DOT 3 (US FMVSS No. 116)
Page 4099
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Specifications
EGR Temperature Sensor: Specifications
Resistance 7.9 - 9.7 M ohms at 32 deg F
0.57 - 0.70 M ohms at 122 deg F
0.08 - 0.10 M ohms at 212 deg F
Voltage 4.81 VDC at 32 deg F
2.81 VDC at 122 deg F
0.8 VDC at 212 deg F
Page 2585
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 121
Engine Control Module: Technical Service Bulletins ECM - Relay (Type 1M) Green or Blue
Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 4501
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1737
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Replacement
Brake Caliper: Service and Repair Replacement
COMPONENTS
WARNING: CLEAN BRAKE PADS WITH A VACUUM DUST COLLECTOR TO MINIMIZE THE
HAZARD OF AIRBORNE MATERIALS.
REMOVAL
1. Remove torque member fixing bolts and connecting bolt. 2. Remove brake hose retaining bolt.
INSTALLATION
1. Install caliper assembly.
2. Install brake hose to caliper securely.
Page 559
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 450
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 718
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 7154
B. For best accuracy, "stabilize" (firmly support) the vehicle with a jack or jack stand as shown in
Figure 1.
^ On some hoists, the vehicle may "wobble" a little while using the on-car brake lathe. Not good.
CAUTION:
Any rocking motion (wobble) of the vehicle during the ProCut(TM) "Automatic compensation"
procedure will reduce the accuracy of the resurfacing.
^ If wobble occurs during the rotor resurfacing process/procedure, the finished rotor runout may be
more than factory specification and should be checked before using the rotor.
C. Prevent metal shavings from contacting or collecting on the ABS speed sensors.
^ Remove any shavings that stick to the ABS speed sensor's magnet. It is best to clean the ABS
sensor with the rotor removed.
D. After a rotor has been resurfaced with the ProCut(TM) brake lathe:
^ If the rotor must be removed for any reason, mark the exact location (rotor to axle hub) before
removing the rotor (see Figure 2).
^ The rotor must be reinstalled back to the same location.
E. Do not tighten the wheel lug nuts with an air impact driver.
^ Use a torque wrench to tighten the lug nuts to the proper torque specification.
^ Uneven or high torque applied to the lug nuts may "distort" (warp) the brake rotor and hub. This
may increase rotor runout and cause excessive rotor thickness variation as the rotor wears.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op
Page 3815
Idle Up Control Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 9416
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 2742
3. Loosen the sensor approximately 10 degrees.
4. Spray with rust penetrant again for 2 to 3 seconds.
5. Tighten the sensor 10 degrees, then loosen the sensor 10 degrees.
^ Repeat this motion several times until the sensor begins to turn more easily.
6. Continue the tightening/loosening motion while gradually unscrewing the sensor. Stop when the
sensor will not unscrew any further.
7. Spray with rust penetrant again for 2 to 3 seconds.
8. Repeat steps 6 and 7 until the sensor is removed.
Page 1188
Optional Splice
Example Diagrams
Specifications
Clutch Fluid: Specifications
Specified type [1]
.................................................................................................................................................
Genuine Nissan Brake Fluid or equivalent
[1] DOT 3 (US FMVSS No. 116)
Page 471
Type Of Standardized Relays (Part 2 Of 2)
Page 874
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4961
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9294
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6480
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2624
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 3321
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3333
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5154
Ground Distribution
Page 8436
5. Peel off the top (smaller) backing sheet from one of the fluorine resin tapes (see Figure 5).
^ Two fluorine resin tape pieces are provided in the kit.
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
6A.
NOTE:
^ The sticky half should be down, toward the floor of the vehicle.
^ The unexposed (not sticky yet) half should be up, toward the ceiling of the vehicle.
Note the following before performing steps 7 and 8:
^ Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned.
^ Take care to properly attach the tape to the "D" ring.
^ Center the tape correctly on the "D" ring and smoothly apply it to the "D" ring surface so that no
wrinkles or ridges are present.
^ Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D"
ring. If this should occur, replace the tape with a new piece.
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 6B).
Page 3955
EC-FRO2/H-01 Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Diagrams
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Locations
Blower Motor Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 1656
Change the filter/dryer (see Figure 2) when 3OOlbs of refrigerant (approximately 150 cars) has
been recovered (display reads "CH-F") or sooner if the moisture indicator does not turn green
during recycling.
ACR4 Leak Check
Check the ACR4 for leaks every 3 months or as specified by state or local laws.
Weight Scale Platform Securing Screw
Make sure the weight scale platform securing screw is properly tightened.
Weight Scale Accuracy
Check the weight scale accuracy at a minimum of every 3 months (or sooner if the scale is
suspected to be inaccurate). Use the following procedure to check the scale accuracy.
1. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons to get into the diagnostic mode
(see Figure 3).
2. Press "6" on the key pad to display the approximate scale platform weight
Page 3471
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Specifications
Fuel Injector: Specifications OHMS
OHMS
Resistance at temperature 10-14 ohms at 77 deg. F
Page 3628
Ground Distribution
Page 4142
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9407
Description (Part 1 Of 2)
Page 1316
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2825
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5520
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5855
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6280
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5925
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8946
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7174
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Page 5781
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5076
Ground Distribution
Page 1740
Engine Compartment
Engine Compartment
Page 4384
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2633
Optional Splice
Example Diagrams
Page 663
Type Of Standardized Relays (Part 2 Of 2)
Page 9145
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9545
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5240
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9254
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Steering - Pull/Drift
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Page 7033
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6427
Torque Converter Clutch Solenoid: Testing and Inspection
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 4228
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5487
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4105
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2281
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 859
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8977
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 148
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3158
Type Of Standardized Relays (Part 2 Of 2)
Page 527
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4137
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3194
Type Of Standardized Relays (Part 2 Of 2)
Page 7881
Wheel Bearing: Fluid Type Specifications
Use a Quality, Multi-purpose wheel bearing grease.
Page 5365
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Engine Compartment
Fuse: Locations Engine Compartment
Component Parts And Harness Connector Location
Page 7316
Page 2567
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Steering - Pull/Drift
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Page 7776
Disassembly
STEERING GEAR MODEL PB59K
CAUTION: Oil sealing parts, dust cover, copper washer and snap ring must not be used again after
removal.
NOTE: Before disassembly, measure turning torque. If not within specifications, replace steering
gear assembly.
1. Place steering gear in a vise with Tool. 2. Set worm gear in a straight ahead position. 3. Loosen
(do not remove) sector shaft cover bolt.
4. Knock out end of sector shaft with a plastic hammer. 5. Remove sector shaft by hand.
Page 4349
NOTES:
^ Rust penetrant is considered a shop supply.
^ Nissan Rust Penetrant can be ordered through the Nissan Direct Ship Chemical Care Product
Program, Website order via link on dealer portal.
^ WD-40 is available from various local sources.
Removal Tool
^ When removing a seized exhaust sensor with a specialty socket (which contains a slit to
accommodate the wiring harness), it may spread open and
strip the sensor.
^ Before this occurs, it is recommended to cut the wiring harness from the sensor and use a box
end wrench or 6-point deep well socket.
1. Clamp the exhaust manifold/catalyst/front tube in a vice.
2. Spray the sensor with the rust penetrant for 2 to 3 seconds.
^ It is important that the spray is directed at the base of the sensor to ensure it penetrates into the
threads.
Page 9251
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3957
EC-FRO2-01 Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Diagrams
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 6010
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Page 3434
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 468
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9611
^ A magnifying glass (10X magnification) must be used to identify impact marks that may be less
than 1 mm in diameter.
NOTE:
A lead, or crack from an impact point can run to the edge of the glass and appear to be a low
stress crack starting from the glass outside edge.
Compound crack beginning or ending at the edge of the glass
This type of crack is always caused by impact to the glass. The point of impact is located where the
crack "branches out".
Cracks that are only in the middle of the glass
This type of crack does not begin or end at the edge of the glass.
^ These cracks are always caused by an impact to the glass and are not covered under warranty.
2) How to determine if glass damage is due to a scratch in the glass surface.
Cracks from a scratch in the glass surface
Glass is produced by fusing together various raw materials such as silica, soda ash, and limestone,
and has a hardness of 5 to 6 on the Mohs scale (for reference, a diamond has a hardness of 10 on
the same scale).
Since earth and sand can contain substances harder than that of glass, glass can be easily
scratched by:
^ Fine sand particles
^ Hard metal
^ Rubbing action of contaminated wiper rubbers, or sand partials caught between the wiper and the
glass, especially when operating the wipers in a dry
Page 8213
Comments regarding vacuum pump use:
^ The lubricant contained inside the vacuum pump is not compatible with the lubrication for R-134a
A/C systems.
^ The vent side of the vacuum pump is exposed to atmospheric pressure, causing the vacuum
pump lubricant to migrate out of the pump if the pump is switched oft after evacuation (vacuuming)
and there is no shut off valve between the pump and the hose.
^ To prevent the migration of vacuum pump lubricant into service hoses, it is necessary to use a
valve (which can be manually opened or closed) near the connection of the service hose to the
pump.
^ On a vacuum pump which is equipped with an isolation valve (usually part of the vacuum pump),
closing this valve will isolate the service hose from the pump.
^ For pumps without an isolation valve, be certain that the service hose is equipped with a manual
shut off valve near the pump end of the hose.
^ Hoses which contain an automatic shut off valve at the end of the service hose must be
disconnected from the vacuum pump to prevent the migration of lubricant; as long as the hose is
connected, the valve is open and lubricant may migrate (with pump off).
^ One-way valves which open when vacuum is applied and close under a no vacuum condition are
not recommended, because this valve may restrict the pump's ability to pull a deep vacuum.
Page 1834
TRANSFER CASE DIAGNOSTIC TABLE
Page 2902
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5099
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6083
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5374
Fast Idle Cam: Adjustments
COMPONENT DESCRIPTION
The FIC is installed on the throttle body to maintain adequate engine speed while the engine is
cold. It is operated by a volumetric change in wax located inside the thermo-element. The
thermoelement is operated by engine coolant temperature.
COMPONENT INSPECTION AND ADJUSTMENT
With Consult
1. Turn ignition switch "ON". 2. See "COOLAN TEMP/S" in "DATA MONITOR" mode with
CONSULT.
3. Start engine and warm it up.
When engine temperature is 80±5°C (176±9°F), make sure that the center of mark (A) is aligned
with mark (B) as shown in the figure.
OR
Without Consult
1. Turn ignition switch "OFF".
2. Disconnect engine coolant temperature sensor harness connector and check resistance as
shown in the figure. 3. Start engine and warm it up.
Page 7746
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3734
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9344
Refer to the "Diagnosis/Repair Flow Chart" shown to diagnose and resolve this incident, should it
occur.
SERVICE PROCEDURE
Headlight Wire Harness Connector Replacement Procedure
1. Disconnect the vehicle-side wire harness connector from the headlight bulb.
2. Cut the vehicle wire harness about an inch back from the headlight harness connector.
3. Cut the wires of the replacement connector to the appropriate length.
4. Strip the end of each wire (on the vehicle wire harness side and on the replacement connector
wires).
Page 4283
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6605
4. Use hose clamps and temporarily connect a length of suitable hose between the bypass valve
fittings that go to the oil cooler (see Figure 6).
5. Pinch/clamp the temporary hose to prevent flow through the loop (see Figure 6).
6. Cover the end of the bypass inlet line with a shop rag to catch any oil spray.
7. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) into the outlet for 10 second
intervals, three times (see Figure 6).
8. Re-connect the transmission lines and remove the temporary hose loop (see Figure 7).
9. Go to Diagnosis Procedure (All Vehicles).
1996-98 Pathfinder (R50) Cleaning the Optional Air Cooled Oil-Cooler (Air Cooler)
1. Place an oil drain pan under the A/T air cooler Inlet and Outlet hoses (see Points A and B,
Figure 8).
2. Disconnect the Inlet and Outlet hoses from the air cooler (see Points A and B, Figure 8).
3. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-AM006) into the air cooler Outlet hose (see Point B, Figure 8).
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath the vapors or the spray mist.
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Drivetrain - Transfer Case Noise/Hard Shifting
Tires: All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 2806
Optional Splice
Example Diagrams
Page 1108
Throttle Position Sensor: Description and Operation
NOTE: If both DTC P0120 (0403) and DTC P0510 (0203) are displayed, perform TROUBLE
DIAGNOSIS FOR DTC P0510 first.
COMPONENT DESCRIPTION
The throttle position sensor responds to the accelerator pedal movement. This sensor is a kind of
potentiometer which transforms the throttle position into output voltage, and emits the voltage
signal to the ECM. In addition, the sensor detects the opening and closing speed of the throttle
valve and feeds the voltage signal to the ECM. Idle position of the throttle valve is determined by
the ECM receiving the signal from the throttle position sensor. This sensor controls engine
operation such as fuel cut. On the other hand, the "Wide open and closed throttle position switch",
which is built into the throttle position sensor unit, is not used for engine control.
Page 2743
9. Use compressed air to remove any metal debris from inside the boss threads.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
10. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
11. Spray the boss threads with rust penetrant for 2 to 3 seconds.
12. Run a thread chaser through the boss to clean the threads.
^ Use Kent Moore part number J-43897-18 or J43897-12.
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4772
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 6920
Synchronizer Ring: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Manual Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 9471
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6072
Optional Splice
Example Diagrams
Page 5071
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4070
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Capacity Specifications
Fluid - Transfer Case: Capacity Specifications
Specified amount .................................................................................................................................
................................................ 2.375 qts. (2.2 Liters)
Page 9205
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3074
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5750
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4352
13. Use compressed air to remove any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
14. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
15. Tilt the manifold/catalyst/front tube so that the metal debris falls out of the part.
16. Apply compressed air through the boss to blow out any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
17. Install the new sensor as described in the applicable Electronic Service Manual (ESM).
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 3833
- Check plunger for seizing or sticking.
- Check for broken spring.
Page 4633
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1275
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4790
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3820
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2925
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2708
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5580
Idle Up Control Valve: Connector Views
Idle Air Control Valve (IACV)-Auxiliary Air Control (AAC) Valve
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve Circuit Connectors
Idle Air Control Valve (IACV)-FICD Solenoid Valve
IACV-FICD Solenoid Valve
IACV-FICD Solenoid Valve Circuit Connectors
Page 747
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2291
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 613
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7276
Vacuum Brake Booster: Service and Repair
COMPONENTS
REMOVAL
CAUTION: ^
Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on painted areas, wash it away with water immediately.
^ Be careful not to deform or bend brake pipes during removal of booster.
INSTALLATION
CAUTION: ^
Be careful not to deform or bend brake pipes during installation of booster.
^ Replace clevis pin if damaged.
^ Refill with new brake fluid DOT 3.
^ Never reuse drained brake fluid.
^ Take care not to damage brake booster mounting bolt thread when installing. Due to the narrow
angle of installation, the threads can be damaged by the dash
1. Before fitting booster, temporarily adjust clevis to dimension shown.
A: 165 mm (6.50 inch)
2. Fit booster, then secure mounting nuts (brake pedal bracket to brake booster) lightly. 3. Connect
brake pedal and booster input rod with clevis pin. 4. Secure mounting nuts.
Tightening torque: 13 - 16 Nm (9 - 12 ft. lbs.).
5. Install master cylinder. 6. Adjust brake pedal height and free play. 7. Secure lock nut for clevis.
Tightening torque: 16 - 22 Nm (12 - 16 ft. lbs.).
8. Bleed air.
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 114
20. The screen in Figure 9 is displayed during data transfer.
CAUTION: During data transfer:
^ DO NOT disturb the VI, DDL, or USB connections.
^ DO NOT try to start the engine or turn the ignition OFF.
^ The engine fans may turn on. This is normal.
NOTE:
^ If "Transfer To VI" reaches 100%, and "Transfer To ECU" does not start, or
^ The Error in Figure 9A displays.
a. DO NOT replace the ECM. The ECM is not damaged.
b. Check / make sure the battery voltage is above 12 V and all vehicle electrical loads are turned
OFF (see step 3 and 4).
c. Select Cancel Data Transmission, then click on the "Home" icon (upper left corner of C-III
screen) and re-start from the beginning (step 1).
Part 2
Page 2833
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 4667
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Steering/Suspension - Wheel Bearing Collision Damage
Wheel Bearing: Technical Service Bulletins Steering/Suspension - Wheel Bearing Collision
Damage
Classification: FA10-006
Reference: NTB10-126
Date: October 21, 2010
WHEEL BEARING COLLISION DAMAGE
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Impacts to wheel bearings (such as a collision or other suspension damage) may create slight
indents in the bearing surfaces. These indents may not be visible but can cause bearing noise.
NOTE:
Hub/bearing replacement due to impact (collision or other suspension damage) is not a
warrantable repair
If a vehicle has visible wheel or suspension damage due to impact (collision or other suspension
damage), it is recommended that the wheel bearing assembly be inspected as follows:
1. Remove the hub/bearing assembly from the vehicle.
2. Hold the hub/bearing assembly with both hands.
3. Rotate the hub/bearing assembly in both directions (clockwise and counterclockwise).
4. If any gritty or rough feeling is detected in the bearing replace it with a new one.
Locations
Fusible Link: Locations
Component Parts And Harness Connector Location
Page 1117
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2621
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2757
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5810
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 532
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 174
Fuel Pump Relay: Connector Locations
Main Harness (Part 1 Of 2)
Page 2288
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Capacity Specifications
Fluid - M/T: Capacity Specifications
Specified amount .................................................................................................................................
.............................................. 10.375 pts. (4.9 Liters)
Page 206
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7620
1. Both camber and caster angles are adjusted by adjusting bolts.
- If the kingpin inclination is outside specifications, check the front suspension parts for wear or
damage. Replace faulty parts with new ones.
2. From the measured value, read the coordinate (or: graduation) at the intersecting point in the
graph.
a. If the coordinate (or graduation) at the intersecting point is positive, move the pin outward by
turning the corresponding adjusting bolt by the
indicated graduation.
b. If the coordinate (or graduation) at the intersecting point is negative, move the pin inward by
turning the corresponding adjusting bolt by the
indicated graduation. After properly moving the pin(s), tighten the front and rear adjusting bolts to
specifications.
3. Re-measure to ensure that the camber and caster are within specified tolerances.
[Example] a. Measured values corresponding with the two values indicated below: (See Chart for
4WD models.)
Camber angle: -0° 06' (-0.10°) Caster angle: 2°10' (2.17°)
Page 3064
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 684
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor
COMPONENT INSPECTION Rear Heated Oxygen Sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "FUEL INJECTION" in
"ACTIVE TEST" mode, and select "RR O2 SENSOR" as the monitor item with CONSULT. (3)
Check "RR O2 SENSOR" at idle speed when adjusting "FUEL INJECTION" to ±25%.
"RR O2 SENSOR" should be above 0.56V at least once when the "FUEL INJECTION" is +25%.
"RR O2 SENSOR" should be below 0.54V at least once when the "FUEL INJECTION" Is -25%.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (56) (sensor signal) and (32) (ECM ground). (3) Check the voltage when racing up
to 4,000 rpm under no load at least 10 times.
(Depress and release accelerator pedal as soon as possible.) The voltage should be above 0.56V
at least once. If the voltage is above 0.56V at step 3, step 4 is not necessary.
(4) Check the voltage when racing up to 5,000 rpm under no load. Or keep vehicle at idling for 10
minutes, then check the voltage. Or check the
voltage when coasting from 80 km/h (50 MPH) in 3rd gear position (M/T), D position with "OD" OFF
(A/T). The voltage should be below 0.54V at least once.
Page 3740
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4073
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Air Outlet
Air Door: Testing and Inspection Air Outlet
SYMPTOM: Air outlet does not change.
AIR OUTLET CONTROL DOORS OPERATION CHECK
1. Start engine. 2. Slide fan control lever to max speed. 3. Check discharge air.
a. Turn mode control switch to FACE position b. Confirm that all discharge air comes out of face
vents. c. Turn mode control switch to BI-LEVEL position. d. Confirm that discharge air comes out of
face vents and foot vents. e. Turn mode control switch to FOOT position. f.
Confirm that discharge air comes out of foot vents, with some air from defrost vents.
g. Turn mode control switch to FOOT and DEFROST (F/D) position. h. Confirm that discharge air
comes out of foot vents with some air from defrost vents.
i. Turn mode control switch to DEFROST (DEF) position.
j. Confirm that all discharge air comes out of defrost vents.
NOTE: Confirm that discharge air comes out according to the air distribution table.
Page 2181
Spark Plug: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2421
Page 8444
PARTS INFORMATION
CLAIMS INFORMATION
SERVICE PROCEDURE
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 2).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 2).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
Page 469
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3281
ECCS Component Parts Location
ECCS Component Parts Location
Page 3701
CAUTION
4. Turn the ignition ON with the engine OFF.
^ The engine must be OFF (not running) during the reprogramming procedure.
^ For Hybrid vehicles, Make sure the dash warning lights are ON and the "READY" light is OFF.
^ Turn OFF all vehicle electrical loads such as exterior lights, interior lights, HVAC, blower, rear
defogger, audio, NAVI, seat heater, steering wheel
heater, etc.
CAUTION
5. Make sure the engine cooling fan(s) are not running.
If the cooling fans are running:
a. Turn the ignition OFF.
b. Wait for the engine to cool.
c. Turn the ignition ON (with engine OFF).
d. Make sure the engine cooling fans are not running.
6. Open / start ASIST on the C-III computer.
7. Select CONSULT Utilities, CONSULT-III, and Wait for the "Detecting VI/MI in progress"
message to clear.
Page 5805
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6366
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2700
Intake Air Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The intake air temperature sensor is mounted to the air duct housing. The sensor detects intake air
temperature and transmits a signal to the ECM. The temperature sensing unit uses a thermistor
which is sensitive to the change in temperature. Electrical resistance of the thermistor decreases in
response to the temperature rise.
Page 9284
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4518
Type Of Standardized Relays (Part 2 Of 2)
Page 4418
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8801
The charts identify 1998 Nissan paint codes, New Cross Link Clear Coat (NCLC) usage, color
names and refinish paint codes for major automotive paint manufacturers. For approved NCLC
clear coat products and procedures, refer to Nissan Bulletin PI95-004, dated March 8, 1995
Page 4749
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5565
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 262
Wheel Speed Sensor: Service and Repair Rear
REPLACEMENT
Refer to the illustration when servicing
Page 7747
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7673
Front Steering Knuckle: Service and Repair
Page 2811
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9506
Description (Part 1 Of 2)
Page 203
Ignition Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5725
Optional Splice
Example Diagrams
Page 9455
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9065
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 5085
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1660
Additionally the PAG lubricant type, part numbers and system recharge amounts are listed for each
model.
Page 6604
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only in areas with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath vapors or mist from spray.
6. Hold the hose and can as high as possible and spray Transmission Cooler Cleaner in a
continuous stream into the cooler Outlet hose until fluid flows out of the cooler Inlet hose for 5
seconds.
NOTE:
For Quest vehicles (V40/V41 Models), before removing the extension adapter hose from the cooler
Outlet hose, turn the can over and spray only propellant (gas) for a few seconds. This will avoid
fluid spill back out of the cooler hose.
7. Insert the tip of an air gun into the end of the cooler Outlet hose (see Figure 5).
8. Wrap a shop rag around the air gun tip and end of the cooler Outlet hose
9. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the cooler Outlet hose for
10 seconds to force out any remaining fluid.
10. Repeat steps 5 through 9 three additional times.
11. Place an oil drain pan under the banjo bolts that connect the oil cooler steel lines to the
transmission.
12. Remove the "banjo" bolts at the transmission, and pull the line fittings away from the
transmission.
13. Flush each steel line from the cooler side back toward the transmission by spraying
Transmission Cooler Cleaner in a continuous stream for 5 seconds.
14. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through each steel line from the
cooler side back toward the transmission for 10 seconds to force out any remaining fluid.
15. Ensure all debris is removed from the steel cooler lines.
16. Ensure all debris is removed from the banjo bolts and fittings.
17. Go to the Workflow chart for next step.
Frontier (D22) Cooler Bypass Cleaning
1. Place an oil drain pan under oil cooler hoses or lines before removing them.
2. Remove the lines from the transmission and allow the oil to drain from the lines (See Figure 6).
3. Remove the lines from the bypass valve (see Figure 6).
Page 7406
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Passenger Compartment (Part 1 Of 2)
Passenger Compartment
Steering/Suspension - Wheel Alignment Info.
Technical Service Bulletin # 04-054C Date: 110406
Steering/Suspension - Wheel Alignment Info.
Classification: WT04-004C
Reference: NTB04-054C
Date: April 6, 2011
WHEEL ALIGNMENT INFORMATION
This bulletin has been amended to correct some typographical errors in SERVICE INFORMATION.
No other changes have been made. Discard all previous versions of this bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
Warranty Claim Information: In order to properly document any warranty alignment claim, the
following item MUST be attached to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
General Information and Recommendations
SERVICE INFORMATION
^ When performing a wheel alignment it is important that you read and follow all of the instructions
supplied with your alignment equipment.
^ The information in this bulletin is not intended to be complete wheel alignment instructions.
^ Use the information in this bulletin as a supplement to the instructions for your equipment.
General Information and Recommendations
1. Four-Wheel Thrust Alignment should always be performed.
^ This type of alignment is recommended for all Nissan vehicles.
^ The four-wheel thrust process ensures that the vehicle is properly aligned, and helps ensure
proper "centering" of the steering wheel.
2. Use the right alignment machine.
^ You must use a quality alignment machine that will give accurate results when performing
alignment checks.
^ Refer to the Nissan TECH-MATE Service Equipment Catalog for recommended alignment
equipment.
^ The alignment rack itself should be capable of accepting any Nissan vehicle. The rack should be
checked to ensure that it is level.
3. Make sure the alignment machine is properly calibrated.
^ Your alignment equipment should be regularly calibrated in order to give accurate readings.
^ If any instrument that is part of the alignment machine is dropped or damaged, calibration should
be checked immediately.
^ Check with the manufacturer of your specific equipment for their recommended
service/calibration schedule.
NOTE:
In order to properly document any warranty alignment claim, the following item MUST be attached
to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
Page 4544
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 142
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6076
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4592
Ground Distribution
Specifications
Idle Speed/Throttle Actuator - Electronic: Specifications
Resistance Approx. 10 ohms at 77 deg F
Page 6245
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Specifications
Brake Fluid: Specifications
Fluid Type Nissan Brake Fluid or DOT 3
Passenger Air Bag Deactivation Switch
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
REMOVAL
Passenger Air Bag Module Deactivation Switch
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector. 3. Remove
instrument stay cover lower center. 4. Remove two screws and remove passenger air bag
deactivation switch.
INSTALLATION
CAUTION: Passenger air bag deactivation switch is keyed for proper installation. Improper
positioning of the switch will result in damage to the switch.
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 2657
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7638
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 785
Ground Distribution
Page 5395
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7613
Alignment: Specifications
Camber
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 0°06' (0.10°) Nominal ......................................................................
............................................................................................................................. 0°36' (0.60°)
Maximum .............................................................................................................................................
.................................................... 1°06' (1.10°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Caster
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 1°40' (1.67°) Nominal ......................................................................
............................................................................................................................. 2°10' (2.17°)
Page 1439
Alignment: Service and Repair
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 413
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8736
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 459
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5446
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 9376
Headlamp: Connector Views
For Canada
Headlamp (For Canada) (Part 1 Of 3)
Headlamp (For Canada) (Part 2 Of 3)
Headlamp (For Canada) (Part 3 Of 3)
Circuit Connectors
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 9176
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1376
^ DO NOT push/pull on the tire to perform the caster sweep.
7. Make sure the steering wheel is centered when performing toe-in measurements and
adjustments.
NOTE:
If you are using a Hunter alignment machine equipped with the WinToe(R)-Adjustment System:
^ There is no need to lock the steering wheel. The WinToe(R) system is not affected by steering
system movement during the adjustment process.
^ Bumping the tire or re-centering the steering wheel when adjusting "near frozen" tie rods is not
necessary. This makes the adjustment process faster
and easier.
^ WinToe(R) eliminates the effect of lash in the steering system.
If you are using a John Bean alignment machine equipped with EZ Toe:
^ There is no need to lock the steering wheel. The EZ Toe system is not affected by steering
system movement during the adjustment process.
^ This software routine is an improved method of setting front toe, making it easier to obtain a
centered steering wheel.
^ With EZ Toe, it is possible to adjust toe with the steering wheel turned at any angle left or right.
This is helpful when setting toe on engine wall
mounted rack and pinion units.
IMPORTANT:
If during the alignment process the vehicle was lifted off of the rack; after lowering, make sure to
jounce (bounce) the vehicle before confirming adjustments are correct.
After you have checked and adjusted vehicle alignment
8. Print the BEFORE and AFTER measurements and attach them to the Repair Order.
9. Road test the vehicle to make sure the steering wheel is "centered" when driving on a straight
flat road.
Page 3570
Camshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Camshaft position sensor
1. Start engine and warm it up to the normal operating temperature. 2. Check voltage between
ECM terminal (49) and ground, ECM terminal (44) or (48) and ground.
If NG, replace distributor assembly with camshaft position sensor.
Page 5585
Idle Up Control Valve: Description and Operation
COMPONENT DESCRIPTION
When the air conditioner is on, the IACV-FICD solenoid valve supplies additional air to adjust to the
increased load.
MIL ON - DTC P0420 Set/Exhaust Rattle
Catalytic Converter: Customer Interest MIL ON - DTC P0420 Set/Exhaust Rattle
Classification: EC00-017
Reference: NTB00-058
Date: July 12, 2000
1998 FRONTIER; MIL "ON" WITH DTC P0420 STORED AND/OR EXHAUST RATTLE
APPLIED VEHICLE: 1998
Frontier (D22)
Federal Emissions Specification ONLY
APPLIED VIN: up to 1N6DD26Y9WC347717
APPLIED DATE: up to 2/13/98
APPLIED ENGINE: KA24DE
SERVICE INFORMATION
If an Applied Vehicle has a MIL "ON" with DTC P0420 (Three-Way Catalyst Function) stored in the
ECM and/or exhaust rattle noise, the vehicle may have poor three-way catalyst function. This is
usually the result of misfire. In severe cases, the catalyst structure may collapse resulting in an
exhaust rattle.
When proper diagnosis confirms that the three-way catalyst in an Applied Vehicle requires
replacement, regardless of the root cause, also install platinum tip spark plugs specified in the
Parts Information section. Platinum tip plugs provide enhanced misfire resistance under extreme
driving conditions.
Use the following service procedure to resolve the incident, should it occur.
NOTE:
If the three-way catalyst's honeycomb internal structure has collapsed, the debris will typically be
trapped in the exhaust piping and muffler, causing an exhaust rattle.
SERVICE PROCEDURE
1. Perform Self-Diagnosis using CONSULT-II. Print and attach the Freeze Frame data to the repair
order.
2. If there is a DTC stored in addition to P0420, diagnose and repair the additional DTC(s) first,
using the appropriate Service Manual procedure(s).
3. After diagnosing and repairing the vehicle for the non-P0420 DTC, or if P0420 is the only DTC,
use the appropriate Service Manual to determine the incident cause, and repair it.
NOTE:
Always check the secondary ignition circuit. Check distributor cap for moisture, tracking or other
indicators of insulator degradation that may cause a misfire under load.
4. If diagnosis has determined that replacement of the three-way catalyst is also necessary,
replace it and install four new platinum tip spark plugs from the Parts Information section.
NOTE:
If the catalyst is being replaced, inspect its internal honeycomb structure by looking into each end
of the converter. If the structure has collapsed or deteriorated severely, check the exhaust piping
and muffler for debris. Remove all debris from the exhaust system. Replace the muffler as needed.
5. Make a note in the vehicle maintenance logs and notify the customer that platinum tip spark
plugs have been installed, and that this is an upgrade from that listed in the owners manual. The
maintenance interval for platinum tip spark plugs is 60,000 miles and Nissan recommends that the
Page 6364
Ground Distribution
Page 4948
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2864
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 597
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Diagram Information and Instructions
Air Flow Meter/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4375
Ground Distribution
Page 1322
Type Of Standardized Relays (Part 2 Of 2)
Page 8993
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2583
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Description and Operation
Electronic Brake Control Module: Description and Operation
CONTROL UNIT (Built-In ABS Actuator And Electric Unit)
The control unit computes the wheel rotating speed by the signal current sent from the sensor.
Then it supplies a DC current to the actuator solenoid valve. It also controls ON-OFF operation of
the valve relay and motor relay. If any electrical malfunction should be detected in the system, the
control unit causes the warning lamp to light up. In this condition, the ABS will be deactivated by
the control unit, and the vehicle's brake system reverts to normal operation.
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Page 989
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2371
CAUTION
4. Turn the ignition ON with the engine OFF.
^ The engine must be OFF (not running) during the reprogramming procedure.
^ For Hybrid vehicles, Make sure the dash warning lights are ON and the "READY" light is OFF.
^ Turn OFF all vehicle electrical loads such as exterior lights, interior lights, HVAC, blower, rear
defogger, audio, NAVI, seat heater, steering wheel
heater, etc.
CAUTION
5. Make sure the engine cooling fan(s) are not running.
If the cooling fans are running:
a. Turn the ignition OFF.
b. Wait for the engine to cool.
c. Turn the ignition ON (with engine OFF).
d. Make sure the engine cooling fans are not running.
6. Open / start ASIST on the C-III computer.
7. Select CONSULT Utilities, CONSULT-III, and Wait for the "Detecting VI/MI in progress"
message to clear.
Page 1925
Page 5667
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3256
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6038
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 872
Vehicle Speed Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2044
Engine Oil: Fluid Type Specifications
Specified type
........................................................................................................................................................
API SG or SH and Energy Conserving II Alternate type ......................................................................
.............................................................................................................. API Certification Mark
Specified viscosity: All temperatures ...................................................................................................
............................................................................ SAE 5W-30 (preferred) Ambient temp above -18°C
(0°F) ....................................................................................................................................................
................. SAE 10W-30
Page 5166
EGR Control Solenoid: Connector Views
EGRC-solenoid Valve (DTC: P1400)
EGRC Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8888
Passenger Compartment (Part 1 Of 2)
Page 2578
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1197
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6024
Type Of Standardized Relays (Part 2 Of 2)
Page 865
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4076
Engine Control Module: Description and Operation
COMPONENT DESCRIPTION
The ECM consists of a microcomputer, diagnostic test mode selector, and connectors for signal
input and output and for power supply. The unit controls the engine.
Page 7055
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Diagram Information and Instructions
EGR Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6487
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 632
Oxygen Sensor: Specifications
For FRONT or REAR Heated Oxygen Sensors.
Resistance 2.3 - 4.3 ohms at 77 deg F
Instruments - Fuel Gauge Inaccurate
Grounding Point: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 5396
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 400
Absolute Pressure Sensor: Connector Views
Absolute Pressure Sensor
Circuit Connectors
Page 6631
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7375
Ignition Ballast Resistor: Electrical Diagrams
WIRING DIAGRAM
Page 3862
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8148
PARTS INFORMATION
CLAIMS INFORMATION
For Bracket Installation Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Bracket Installation and Hose Angle Adjustment Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Evacuate Replace A/C Low Hose and Recharge System:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Additional Expenses for P81633 ONLY.
Information
Page 3725
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2920
Description (Part 1 Of 2)
Page 8532
Engine Compartment
Engine Compartment
Page 710
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Front Differential
Page 4434
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1657
3. Remove the tank from the weight scale platform (see Figure 4).
4. With the weight scale platform empty, the display should read close to zero + - 0.2 lbs. If the
reading is too low or too high, perform the scale calibration procedure listed below.
Weight Scale Calibration
Check the weight scale calibration at a minimum of every 3 months (or sooner if the scale is
suspected to be inaccurate). Use the following procedure to calibrate the weight scale.
1. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons to get into the diagnostic mode.
2. Press "8787". The display will read "A1".
3. Remove all weight from the scale.
4. Press "0", then press "ENTER". The display will show "0.00" and then changes to "A2".
5. Place a certified known weight (between 10 to 80 lbs) in the center of the scale platform.
NOTE: A certified 10 lb weight is available from Tech-Mate (P/N J-42363). This item can be
ordered from Tech-Mate by calling 800-662-2001.
6. Enter the weight using four digits (i.e., 10.00 for 10.00 lbs).
7. Press "ENTER". The display will return to vacuum mode.
8. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons.
9. Press "6". The display will show the weight on the scale platform.
10. Remove the weight from the scale platform. The display will return to "0.00".
11. Press the "SHIFT/RESET" button only (not "ENTER") to return to the program mode.
NOTE: If the scale cannot be calibrated or another malfunction exists, call the SPX Robinair ACR4
Help Line at 800-822-5561 or contact another qualified facility for repair.
Tank Certification
The tank must be certified on the "First Retest Date" (stamped into the top of the tank handle) and
every 5 years after the "First Retest Date". This is according to DOT-4BA-400.
NOTE: A qualified welding supply, fire extinguisher maintenance or refrigerant company can
perform the certification.
Operational Tips
Tank Position
Page 5161
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8751
Mirrors: Electrical Diagrams
EL-MIRROR-01 Mirror
Circuit Diagrams
Mirror
Power Door Mirror Circuit Connectors
Specifications
Brake Proportioning/Combination Valve: Specifications
PRESSURE
Split Point ............................................................................................................................................
.............................. 3432 kPa x 0.2 (498 psi x 0.2)
Page 2900
Ground Distribution
Page 3086
Type Of Standardized Relays (Part 2 Of 2)
Page 3884
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6882
TRANSFER CASE DIAGNOSTIC TABLE
Page 5266
Optional Splice
Example Diagrams
Page 5436
Main Harness (Part 2 Of 2)
Fuel Pump Relay Connector # M46
Page 2536
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3881
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7203
Brake Bleeding: Service and Repair
CAUTION:
^ Carefully monitor brake fluid level at master cylinder during bleeding operation.
^ If master cylinder is suspected to have air inside, bleed air from master cylinder first.
^ Fill reservoir with new brake fluid DOT 3. Make sure it is full at all times while bleeding air out of
system.
^ Place a container under master cylinder to avoid spillage of brake fluid.
^ Turn ignition switch OFF and disconnect ABS actuator and electric unit connector or battery
cable.
^ Bleed air in the following order: a. Load Sensing Valve (LSV) air bleeder (Models equipped with
LSV) b. Left rear brake c. Right rear brake d. Left front brake e. Right front brake f.
ABS actuator and electric unit
1. Connect a transparent vinyl tube to air bleeder valve. 2. Fully depress brake pedal several times.
3. With brake pedal depressed, open air bleeder valve to release air. 4. Close air bleeder valve. 5.
Release brake pedal slowly. 6. Repeat steps 2 through 5 until clear brake fluid comes out of air
bleeder valve. 7. Tighten air bleeder to 7 - 9 Nm (61 - 78 inch lbs.)
Page 2027
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 1881
- After installation remove the pin to release piston.
3. Install camshaft sprocket cover
- Use a scraper to remove all traces of liquid gasket from mating surface
- Also remove traces of liquid gasket from mating surface of cylinder block
- Apply a continuous bead of liquid gasket to camshaft sprocket cover
- Use Nissan Genuine RTV Silicone Sealant, Part No. 999 MP-A7007, Three Bond TB1207D or
equivalent.
- Be careful not to damage cylinder head gasket.
- Be careful upper timing chain does not slip or jump when installing camshaft sprocket cover.
4. Tighten cylinder head bolts in numerical order
- Tightening procedure a. Tighten all bolts to 29 Nm (3.0 kg-m, 22 ft. lbs.). b. Tighten all bolts to 79
Nm (8.1 kg-m, 59 ft. lbs.). c. Loosen all bolts completely d. Tighten all bolts to 25 to 34 Nm (2.5 to
3.5 kg-m, 18 to 25 ft. lbs.). e. Turn all bolts 86 +5/-0 degrees clockwise, or if an angle wrench is not
available, tighten bolts to 75 to 84 Nm (7.6 to 8.6 kg-m, 55 to
62 ft. lbs.).
5. Install camshafts and camshaft brackets
- Tightening procedure.
Page 9225
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 5940
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 921
EGR Temperature Sensor: Connector Views
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Specifications
Page 561
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7703
Power Steering Fluid: Testing and Inspection Checking Fluid Leakage
Check lines for proper attachment, leaks, cracks, damage, chafing or deterioration. 1. Run engine
between idle speed and 1,000 rpm.
NOTE: Make sure temperature of fluid in reservoir tank rises to 60 - 80° C (140 - 176° F).
2. Turn steering wheel right-to-left several times. 3. Hold steering wheel at each "lock" position for
five seconds and carefully check for fluid leakage.
CAUTION: Do not hold steering wheel at lock position for more than 15 seconds.
4. If fluid leakage from any line is noticed, loosen flare nut and then retighten.
CAUTION: Do not overtighten connector as this can damage O-ring, washer and connector.
5. If fluid leakage from power steering pump is noticed, check power steering pump. 6. If fluid
leakage from power steering gear is noticed, check power steering gear.
Component Locations
Page 5968
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5704
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5864
Ground Distribution
Page 5920
Optional Splice
Example Diagrams
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5039
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8567
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6975
Counter Gear: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Transfer Case; Service and Repair; Transfer Case Overhaul.
Page 7915
Page 7208
^ These pads use a semi-metallic compound, similar to the material used in Nissan OE pads prior
to the introduction of the NAO compound.
^ Key Value semi-metallic pads offer excellent braking performance but do not offer the same level
of noise resistance as the OE-NAO pads.
^ Service customers have varying sensitivity to brake noise and the individual customer must
decide which product best suits his or her requirements, balancing price and noise resistance.
^ Make sure the Service Advisor adequately explains the differences between Key Value brake
pads and Nissan OE-NAO brake pads to the customer when discussing brake service.
Loud continuous squeak/squeal noise:
^ Occurs with or without braking.
^ This is a normal brake function. It occurs when the brake pad wear indicators contact the rotor.
^ It indicates the brake pads are worn out and need to be replaced. Install new brake pads using
the information listed under Brake Service shown in this bulletin and the appropriate Service
Manual procedures.
Groan noise when slightly releasing the brakes after coming to a stop:
^ This is sometimes called "creep groan".
^ It is a normal condition. No repair or service is necessary.
Groan noise during stopping:
^ Usually caused by glazing of the rotor's surface as a result of heavy or frequent braking.
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ Replace the brake pads, then resurface the rotors and finish them with sand paper. Refer to
Brake Service shown in this bulletin for additional detail.
Single clunk noise from front suspension when applying the brakes:
^ The noise is a result of the brake pads shifting in the direction of rotor rotation when the brakes
are applied.
^ Can be duplicated by lightly touching the brake pedal.
^ If the brake pedal is pushed hard, the noise is less likely to occur.
^ Make sure the brake pads and pad hardware (shims, springs, clips, etc) are installed correctly.
^ Refer to ASIST for vehicle specific brake service information.
^ Refer to Brake Service shown in this bulletin for additional detail.
Multiple clunk noise and/or pedal pulsation that occurs only one time after the engine is started:
^ This is a normal ABS Self Check noise. No service action is necessary.
^ The vehicle's ABS system performs a self check. On some models this self check occurs with the
first application of the brakes after the engine is started. On other models the self check occurs the
first time the vehicle reaches 5 mph after the engine is started.
Rear Brake Squeal:
^ Usually due to an accumulation of brake dust and dirt between the pads/shoes and rotors or
drums.
^ Clean all dust and dirt from the brake shoes, backing plates and related components.
WARNING:
Brake dust may be hazardous if inhaled. Refer to the Service Manual (ESM) for brake dust
precautions and use approved brake cleaning equipment.
Page 8941
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6501
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Page 2147
Idle Speed: Specifications IDLE SPEED
IDLE SPEED
Idle speed M/T 800 +/- 50 RPM
Idle speed A/T ( in N position) 800 +/- 50 RPM
Refer to idle speed adjustments
Page 8113
CAUTION:
When installing high pressure tubes (with flange connections) to their mating parts, make sure the
flange is fully seated onto the mating part before the securing bolt is installed and tightened (see
Figure 4). If the securing bolt is installed and tightened before the tube flange is seated onto its
mating part, 0-ring damage and leaks can result.
Page 1200
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 996
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 9532
Spot Lamp: Connector Views
Spot Lamps
Circuit Connectors
Page 3215
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3005
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7631
Optional Splice
Example Diagrams
Page 806
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8991
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 113
18. At this point, refer to the symptom based TSB that directed you to reprogram the ECM.
The symptom based TSB is required, in order to determine which reprogramming part number to
use.
19. Select Next
NOTE:
If the screen in Figure 8 appears, there is data stored in the VI. Select "Yes" to proceed with
Reprogramming.
Page 2525
Optional Splice
Example Diagrams
Testing and Inspection
Turn Signal Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 6889
Page 3643
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 3510
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 609
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6025
Ignition Control Module: Electrical Diagrams
WIRING DIAGRAM
Page 9423
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3485
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2930
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5479
Optional Splice
Example Diagrams
Page 2115
NOTE:
Make sure the flat side of the distributor drive shaft is facing the engine (see Figure 6). Failure to do
so will result in the distributor being out of time.
8. Install the following parts:
a. Crankshaft pulley.
b. A/C compressor and idler pulley bracket.
c. Radiator shroud and cooling fan with coupling.
d. A/C compressor, alternator and power steering pump drive belts.
e. Air duct.
Installation of Upper Timing Chain
1. Install the lower timing chain (refer to "Installation of Lower Timing Chain" in this bulletin).
2. Install upper timing chain and sprockets, using the painted reference marks made during
removal.
3. Install chain tensioner. Remove the pin holding the tensioner piston in the bore of the tensioner.
4. Install camshaft sprocket cover:
a. Use a scraper to remove all traces of liquid gasket from the mating surfaces of the engine block
and camshaft sprocket cover.
b. Apply a continuous bead of RTV sealant to the cover as shown in Figure 7.
NOTE:
Page 5657
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Model PB48S
Power Steering Line/Hose: Specifications Model PB48S
Power Steering Line Flare Nut:
Low Pressure .......................................................................................................................................
............................. 39 - 49 Nm (29 - 36 ft. lbs.) High Pressure ............................................................
....................................................................................................... 29 - 39 Nm (20 - 29 ft. lbs.)
Page 9412
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5250
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 189
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4475
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7362
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5896
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2510
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3285
Description (Part 1 Of 2)
Page 6244
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4338
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Capacity Specifications
Coolant: Capacity Specifications
Specified amount [1] ............................................................................................................................
.................................................... 9.5 qts. (9.0 Liters)
[1] with reservoir
Page 6777
9. Press ABS sensor rotor onto axle shaft until it contacts wheel bearing lock nut.
10. Position axle shafts in rear axle housing with Tool as a guide.
CAUTION: Be careful not to damage oil seal.
11. Check axial end play.
a. Check that wheel bearings operate smoothly. b. Check axial end play.
Axial end play: 0 mm (0 inch)
Page 2277
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Specifications
Brake Pedal Assy: Specifications
DIMENSIONS
Depressed Height [1] ...........................................................................................................................
......................................... 120.0 mm (4.72 inches) Free Height [2]:
Automatic Transmission
........................................................................................................................................ 212 - 222
mm (8.35 - 8.74 inches) Manual Transmission
............................................................................................................................................. 209 - 219
mm (8.23 - 8.62 inches)
Free Play:
At Clevis
..............................................................................................................................................................
1.0 - 3.0 mm (0.039 - 0.118 inches) At Pedal Pad ..............................................................................
...................................................................................... 4 - 12 mm (0.16 - 0.47 inch)
Pedal Stopper Clearance
........................................................................................................................................... 0.3 - 1.0
mm (0.012 - 0.039 inches)
TIGHTENING SPECIFICATIONS
Pedal Assembly:
To Booster ...........................................................................................................................................
..................... 13 - 16 Nm (108 - 144 inch lbs.) To Under-dash ...........................................................
..................................................................................................... 8 - 11 Nm (69 - 95 inch lbs.)
[1]: With 490 N (110 lbs.) applied with engine running [2]: Measured from surface of dash
reinforcement panel.
Page 2086
Use Genuine Nissan RTV silicone sealant P/N 999MP-A7007, Three Bond P/N TB1207D or
equivalent.
c. Also place RTV sealant on the head gasket surface.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
CAUTION:
Be careful upper timing chain does not slip or jump when installing the camshaft sprocket cover.
d. Install camshaft sprocket cover.
5. Install rubber plugs into cylinder head after applying RTV sealant (see Figure 8).
6. Install rocker cover, tightening the bolts as shown in Figure 9.
Page 8412
^ Find the "witness mark" (the old hole) for the old button, using the information contained in Figure
1 and Table 1.
Page 3269
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1054
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3787
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2761
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2537
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1280
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 956
Leak Detection Sensor: Electrical Diagrams
EC-PRE/SE-01 Evaporation Emission Control System Pressure Sensor (EVAP) (DTC: P0450)
WIRING DIAGRAM
Page 7248
Brake Master Cylinder: Service and Repair Overhaul
COMPONENTS
DISASSEMBLY
1. Bend claws of stopper cap outward. 2. Remove piston assemblies.
- If it is difficult to remove secondary piston assembly, gradually apply compressed air through fluid
outlet.
3. Draw out reservoir tank.
Page 2794
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor
COMPONENT DESCRIPTION
The rear heated oxygen sensor (rear HO2S), after three way catalyst, monitors the oxygen level in
the exhaust gas. Even if switching characteristics of the front heated oxygen sensor are shifted, the
air fuel ratio is controlled to stoichiometric by the signal from the rear heated oxygen sensor. This
sensor is made of ceramic zirconia. The zirconia generates voltage from approximately 1V in richer
conditions to 0V in leaner conditions. Under normal conditions the rear heated oxygen sensor is not
used for engine control operation.
Page 3960
EC-RRO2-01 Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Diagrams
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Page 595
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4607
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5052
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3302
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4281
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7219
1. Insert piston seal into groove on cylinder body. 2. With piston boot fitted to piston, insert piston
boot into groove on cylinder body and install piston. 3. Properly secure piston boot.
CAUTION: ^
Secure dust seal properly.
^ Lubricate with new brake fluid before installing plastic pistons into cylinder body.
Page 7921
Page 5223
Positive Crankcase Ventilation Valve: Testing and Inspection
PCV VALVE
With engine running at idle, remove PCV valve from breather separator. A properly working valve
makes a hissing noise as air passes through it. A strong vacuum should be felt immediately when a
finger is placed over the valve inlet.
Page 7399
Power Supply Routing: Schematic (Part 2 Of 2)
Page 9232
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6602
Chart A & B
Cooler Inlet And Outlet Locations
Cooler Cleaning (in radiator)
CAUTION:
You must refer to Charts A and B to determine the location of the oil cooler inlet and outlet hoses
for the vehicle your working on.
If these hoses are not identified correctly, debris may be left in the cooler and transmission damage
may occur.
1. Place an oil drain pan under the automatic transmission cooler Inlet and Outlet hoses.
Page 4745
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7700
Power Steering Fluid: Fluid Type Specifications
Automatic Transmission Fluid
......................................................................................................................................................
Dexron III, Or Equivalent
Page 1360
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Page 6078
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4307
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6672
Clutch Master Cylinder: Service and Repair
DISASSEMBLY AND ASSEMBLY
- Use a screwdriver to remove stopper ring while pushing push rod into cylinder.
- When installing stopper ring, tap in lightly while pushing push rod into cylinder.
INSPECTION
Check the following items, and replace as necessary. Rubbing surface of cylinder and piston, for uneven wear, rust and damage
- Piston with piston cup, for wear and damage
- Return spring, for wear and damage
- Dust cover, for cracks, deformation and damage
- Reservoir, for deformation and damage
Page 6191
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5321
Page 3531
Intake Air Temperature Sensor: Connector Views
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 9461
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Suspension - Steering Pull Diagnosis
Alignment: All Technical Service Bulletins Suspension - Steering Pull Diagnosis
Classification: ST01-003
Reference: NTB01-083
Date: November 28, 2001
1998-2002 FRONTIER AND 2000-2002 XTERRA STEERING PULL DURING BRAKING
APPLIED VEHICLES: 1998-2002 Frontier (D22) 2000-2002 Xterra (WD22)
SERVICE INFORMATION
If an applied Frontier or Xterra exhibits a slight steering pull (left or right) during:
^ Moderate application of the brakes to bring the vehicle to a complete stop from a speed of
between 20 and 30 mph.
The following steps should be performed in order given;
1. The vehicle suspension should be inspected.
2. Vehicle ride height should be checked.
3. Alignment should be checked to ensure that all measurements are within factory specifications.
When performing an alignment, refer to the appropriate Electronic Service Manual (ESM) for
specifications and adjustment procedures.
Page 2831
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 134
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 9425
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2276
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2851
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 896
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1159
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5561
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3686
Page 4230
Type Of Standardized Relays (Part 2 Of 2)
Page 9182
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6968
Transmission Position Switch/Sensor: Electrical Diagrams
EC-PNP/SW-01 Park/Neutral Position Switch (DTC: P1706)
Circuit Diagrams
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8820
3M materials:
Meguiar's materials:
Misc:
8" buffer (1500-1750 RPM) Dual action sander, variable speed Terry cloth towels (100% cloth)
NOTE:
Always use separate pads for each liquid (mark the backside of each pad with the type of liquid
used) and clean the pads frequently. Use of a wool pad on clear coat is limited to the polishing type
of pad and is always followed by a foam Dad on a dual action sander to remove swirl marks.
Measuring Paint Film Thickness
Before any abrasive removal, measure the initial film thickness at several places to establish an
average figure. After each abrasive step measure several places again to determine how much
paint film was removed. Follow the instructions provided by the manufacturer of the mil gauge you
are using for measurement and calibration. If you do not have a thickness gauge use the following
rule of thumb during abrasive removal; When the "orange peel" surface is removed, 0.5 mil has
been removed.
Polishing
Polishing is done in two steps: The first step is with an 8" buffer and the second step with a dual
action sander to remove buffing and swirl marks. Low speed (1500-1750 RPM) is necessary to
prevent overheating the surface.
CAUTION:
Do not polish or buff a surface dry. More than the usual quantity of liquid must be used to keep the
paint surface cool. Wipe the excess material off with a clean soft towel after each operation
1. Clean the surface of all residue before polishing.
2. Use an 8" buffer (at 1500 - 1750 RPM) with either a 3M wool polishing pad or a Meguiar's foam
pad, apply polishing compound over the work
Page 4209
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Component Locations
Page 3921
ECCS Component Parts Location
ECCS Component Parts Location
Page 1437
Maximum .............................................................................................................................................
.................................................... 2°40' (2.67°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
King Pin Inclination
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
............................................... 10°18' (10.30°) Nominal ......................................................................
......................................................................................................................... 10°48' (10.80°)
Maximum .............................................................................................................................................
................................................ 11°18' (11.30°)
Toe-In
GENERAL SPECIFICATIONS
Allowable Limit (With Radial Tire):
Angle (Left + Right)
Minimum: 15' (0.25°) Nominal: 20' (0.33°) Maximum: 25' (0.42°)
Distance (A - B)
Minimum: 3 mm (0.12 inch) Nominal: 4 mm (0.16 inch) Maximum: 5 mm (0.20 inch)
Turning Angle Specifications
GENERAL SPECIFICATIONS
P235/70R14:
Inside:
Minimum ..............................................................................................................................................
........................................ 31° 00' (31.00°) Nominal ............................................................................
............................................................................................................ 33° 00' (33.00°) Maximum ......
..............................................................................................................................................................
.................. 33° 00' (33.00°)
Outside (Full Turn) [1]:
Minimum ..............................................................................................................................................
........................................ 29° 00' (29.00°) Nominal ............................................................................
............................................................................................................ 31° 00' (31.00°) Maximum ......
..............................................................................................................................................................
.................. 31° 00' (31.00°)
Except P235/70R14:
Inside:
Minimum ..............................................................................................................................................
........................................ 33° 06' (33.10°) Nominal ............................................................................
............................................................................................................ 35° 06' (35.10°) Maximum ......
..............................................................................................................................................................
.................. 35° 06' (35.10°)
Outside (Full Turn) [1]:
Minimum ..............................................................................................................................................
........................................ 31° 12' (31.20°) Nominal ............................................................................
............................................................................................................ 33° 12' (33.20°) Maximum ......
..............................................................................................................................................................
.................. 33° 12' (33.20°)
[1]:On power steering models, wheel turning force, (at circumference of steering wheel) of 98 - 147
N (22 - 33 lbs.) with engine at idle.
Vehicle Ride Height
DIMENSIONS
Page 7978
Disclaimer
Page 2815
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2905
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5116
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4520
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 6842
WHEEL HUB AND ROTOR DISC
REPLACEMENT
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub / Service and Repair.
Page 1846
Page 982
Ground Distribution
Page 5828
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8356
^ Find the "witness mark" (the old hole) for the old button, using the information contained in Figure
1 and Table 1.
Page 3170
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Restraints - Seat Belt Retract Slowly
Seat Belt: Customer Interest Restraints - Seat Belt Retract Slowly
Classification: RS01-001B
Reference: NTB01-005B
Date: November 12, 2009
"D" RING RESIDUE CAN CAUSE SLOW SEAT BELT RETRACTION
This bulletin amends NTB01-005a. Please discard all previous versions of this bulletin.
APPLIED VEHICLES
IF YOU CONFIRM
Seat belt retraction of front seat belt(s) is slow, caused by "residue" build-up on the "D" ring(s).
ACTION
Use the "D" ring cleaning and refurbishing kit to:
^ Clean the residue off of the "D" rings.
^ Apply fluorine resin tape to the "D" rings.
IMPORTANT:
The purpose of "ACTION" (above) is to give you a quick idea of the work you will be performing.
You MUST closely follow the entire Service Procedure as it contains information that is essential to
successfully completing the repair.
Page 1262
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3876
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 536
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Adjustments
Air/Fuel Mixture: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 2826
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2645
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1118
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5831
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 6495
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1999
2. With the engine running at idle and the AC turned ON, observe the pulley axial/lateral (back and
forth) movement (see Example 2):
^ Maximum movement specification is 1 mm.
^ Visual comparison of movement with a known good vehicle is recommended.
Idler Pulley / Manual Tensioner Inspection (if equipped)
No more than 1 mm of pulley rock should be visible.
Alternator One-way Clutch Pulley Inspection
CAUTION:
Be careful not to damage the rotor.
NOTE:
The following steps can be done while the alternator is installed on the vehicle if the drive belt is
removed and the alternator electrical connectors are disconnected.
1. Secure the rotor using a medium size screwdriver and a rolled shop towel.
2. Turn the pulley clockwise when viewed from the front.
^ Pulley should be locked.
^ If it rotates in both directions, replace the alternator.
3. Turn the pulley counterclockwise when viewed from the front.
Lower, Front
Control Arm: Service and Repair Lower, Front
Page 731
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Specifications
Diagnosis Sensor Unit: Specifications Diagnosis Sensor Unit
Diagnosis Sensor Unit
Special Bolt 15 - 25 Nm
Page 900
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3600
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6114
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 552
Intake Air Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 9558
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5160
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6578
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5028
Description (Part 1 Of 2)
Page 6136
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2241
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8422
Seat Belt: Service and Repair Rear Seat Belt
CAUTION:
- Do not disassemble buckle or seat belt assembly. - Replace anchor bolts if they are deformed or
worn out. - Never oil tongue and buckle. - If any component of seat belt assembly is questionable,
do not repair. Replace the seat belt assembly. - If webbing is cut, frayed, or damaged, replace seat
belt assembly. - When replacing seat belt assembly, use a genuine NISSAN seat belt assembly. After any collision, inspect all seat belt assemblies, including retractors and other attached
hardware.
Rear Seat Belt
REMOVAL
1. Remove underseat storage. 2. Remove buckle. 3. Remove seat belt anchor bolt.
Page 3829
Idle Up Control Valve: Description and Operation
COMPONENT DESCRIPTION
When the air conditioner is on, the IACV-FICD solenoid valve supplies additional air to adjust to the
increased load.
Adjustments
Neutral Safety Switch: Adjustments
1. Remove control linkage and manual lever from manual shaft. 2. Set manual shaft in "N" position.
3. Loosen inhibitor switch fixing bolts. 4. Insert pin into adjustment holes in both inhibitor switch and
manual as near vertical as possible. 5. Tighten inhibitor switch fixing bolts. 6. Remove pin. 7.
Reinstall any part removed. 8. Adjust control linkage. Refer to Transmission and Drivetrain. 9.
Check continuity of inhibitor switch.
Page 5349
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3576
Optional Splice
Example Diagrams
Page 4779
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2367
Page 6062
Type Of Standardized Relays (Part 2 Of 2)
Steering/Suspension - Wheel Alignment Info.
Technical Service Bulletin # 04-054C Date: 110406
Steering/Suspension - Wheel Alignment Info.
Classification: WT04-004C
Reference: NTB04-054C
Date: April 6, 2011
WHEEL ALIGNMENT INFORMATION
This bulletin has been amended to correct some typographical errors in SERVICE INFORMATION.
No other changes have been made. Discard all previous versions of this bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
Warranty Claim Information: In order to properly document any warranty alignment claim, the
following item MUST be attached to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
General Information and Recommendations
SERVICE INFORMATION
^ When performing a wheel alignment it is important that you read and follow all of the instructions
supplied with your alignment equipment.
^ The information in this bulletin is not intended to be complete wheel alignment instructions.
^ Use the information in this bulletin as a supplement to the instructions for your equipment.
General Information and Recommendations
1. Four-Wheel Thrust Alignment should always be performed.
^ This type of alignment is recommended for all Nissan vehicles.
^ The four-wheel thrust process ensures that the vehicle is properly aligned, and helps ensure
proper "centering" of the steering wheel.
2. Use the right alignment machine.
^ You must use a quality alignment machine that will give accurate results when performing
alignment checks.
^ Refer to the Nissan TECH-MATE Service Equipment Catalog for recommended alignment
equipment.
^ The alignment rack itself should be capable of accepting any Nissan vehicle. The rack should be
checked to ensure that it is level.
3. Make sure the alignment machine is properly calibrated.
^ Your alignment equipment should be regularly calibrated in order to give accurate readings.
^ If any instrument that is part of the alignment machine is dropped or damaged, calibration should
be checked immediately.
^ Check with the manufacturer of your specific equipment for their recommended
service/calibration schedule.
NOTE:
In order to properly document any warranty alignment claim, the following item MUST be attached
to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
Page 2259
Radiator: Service and Repair
REMOVAL AND INSTALLATION
1. Remove under cover. 2. Drain coolant from radiator. 3. Disconnect upper and lower radiator
hoses. 4. Remove air cleaner and air duct assembly. 5. Remove lower radiator shroud. 6. Remove
radiator shroud. 7. Remove A/T oil cooler hoses (A/T models only). 8. Disconnect coolant reservoir
hose. 9. Remove radiator.
10. After replacing radiator, install all parts in reverse order of removal. 11. Refill engine coolant.
- After installation, run engine for a few minutes, and check for leaks.
INSPECTION RADIATOR (ALUMINUM TYPE)
1. Apply pressure with Tool.
Specified pressure value: 157 kPa (1.6 kg/cm2, 23 psi)
WARNING: TO PREVENT THE RISK OF THE HOSE COMING UNDONE WHILE UNDER
PRESSURE, SECURELY FASTEN IT DOWN WITH A HOSE CLAMP ATTACH A HOSE TO THE
OIL COOLER AS WELL. (A/T MODEL ONLY)
Page 4735
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4397
EC-RRO2-01 Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Diagrams
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Circuit Connectors
Response Monitoring
Page 937
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4655
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6022
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7054
Description (Part 1 Of 2)
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Locations
Page 4468
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3103
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 9410
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9149
Transmission Shift Position Indicator Lamp: Connector Views
Wiring Diagram
A/T Indicator Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 3851
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6581
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4175
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5689
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 86
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4085
ECM INSPECTION TABLE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 2982
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 1760
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Initial Inspection and Diagnostic Overview
Compressor Clutch: Initial Inspection and Diagnostic Overview
Clutch disc If the contact surface shows signs of damage due to excessive heat, replace clutch disc
and pulley.
Pulley Check the appearance of the pulley assembly. If contact surface of pulley shows signs of
excessive grooving, replace clutch disc and pulley. The contact surfaces of the pulley assembly
should be cleaned with a suitable solvent before reinstallation.
Coil Check coil for loose connection or cracked insulation.
Page 5482
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1237
Impact Sensor: Service and Repair Crash Zone Sensor
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact. - Check crash
zone sensor for proper installation. Make sure that there are no deformities, dents, cracks or rust. If
there are any visible signs of damage,
replace the crash zone sensor.
- Check crash zone sensor bracket to ensure that it is free of deformities and rust.
Removal Of Crash Zone Sensor
1. Disconnect driver and passenger air bag module connectors. 2. Remove front grille. 3.
Disconnect crash zone sensor connector. 4. Using the TAMPER RESISTANT TORX (Size T50),
remove the three special bolts. The crash zone sensor can then be removed.
NOTE:
- To install, reverse removal procedure. - After replacement, perform Self-diagnosis for SRS. Refer
to "SRS Operation Check".
Page 3658
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Emissions System - MIL ON/DTC's Stored (EVAP)
Canister Purge Solenoid: All Technical Service Bulletins Emissions System - MIL ON/DTC's Stored
(EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Hub, Rotor and Wheel Bearing
Wheel Hub (Locking): Service and Repair Hub, Rotor and Wheel Bearing
Page 6815
Axle Nut: Service and Repair Specifications
TIGHTENING SPECIFICATIONS
Auto Lock Knob ...................................................................................................................................
.................................. 25 - 34 Nm (18 - 25 ft. lbs.) Lock Washer Screw
.................................................................................................................................................... 1.2 1.8 Nm (10.4 - 15.7 inch lbs.) Manual Lock Knob ...............................................................................
................................................................................. 25 - 34 Nm (18 - 25 ft. lbs.)
Page 6256
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1024
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1149
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 3603
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 8971
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2683
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4034
18. At this point, refer to the symptom based TSB that directed you to reprogram the ECM.
The symptom based TSB is required, in order to determine which reprogramming part number to
use.
19. Select Next
NOTE:
If the screen in Figure 8 appears, there is data stored in the VI. Select "Yes" to proceed with
Reprogramming.
Page 6012
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3026
Description (Part 1 Of 2)
Page 8685
C. Remove the sunroof panel by lifting the panel so that it stands straight up, then slide it toward
the drivers side to release it from the hinge brackets (see Figure 3). Place the sunroof panel in a
safe place until it is reinstalled.
2. Remove the sunroof weather strip from the vehicle body (see Figure 4).
Page 3041
Ground Distribution
Page 7977
^ Any tools, equipment cones, or other wheel balancing equipment items should not touch the
outside surface of chrome type wheels.
Wheel Alignment:
^ Alignment sensors with metal mounting hooks should not be used on chrome type wheels.
^ Some alignment equipment manufacturers may have protective rubber pads available that can be
used to cover the metal mounting hooks.
Page 2733
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 4168
Optional Splice
Example Diagrams
Page 3304
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3845
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Emissions System - MIL ON/DTC's Stored (EVAP)
Evaporative Emissions Hose: Customer Interest Emissions System - MIL ON/DTC's Stored (EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Page 3811
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3615
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3313
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 6299
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8181
Comments regarding PAG refrigerant oils:
^ PAG oil absorbs moisture from the air at an exceptionally fast rate, and moisture can damage the
A/C system.
Page 1011
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5669
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5933
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5788
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 1867
Disclaimer
Page 3566
Type Of Standardized Relays (Part 2 Of 2)
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: Customer Interest MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 4016
Page 3713
Engine Control Module: Technical Service Bulletins ECM - Relay (Type 1M) Green or Blue
Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Locations
Antitheft Relay: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 818
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9385
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 419
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8817
F. Inspect for damage using fluorescent light source and magnification. If spots are removed, clean
affected panels.
G. Use abrasive cleaning on test section to remove up to 0.5 mil of damaged top/clear coat.* If
damage is less than 0.5 mil deep, clean affected panels with abrasive method. After polishing,
inspect for swirl marks using halogen lights. If damage is more than 0.5 mil deep, the affected
panels must be repaired either by re-clear, re-color/clear coat, or re-color coated (on vehicles with
no final clear coat).
A. Wash Procedure
Wash Equipment and Materials:
Spray wash system (a mobile or stationary unit with hand held spray similar to a coin operated car
wash that provides soap solution, rinse water and de-ionized final rinse).
Car wash detergent containing no phosphates, (Nissan P/N 999MP-A3100).
Clean 100% cotton terry cloth towels.
De-ionized water for the final rinse. De-ionized water is highly recommended as it reduces water
spotting. De-ionizing cylinders can be purchased or rented from water purification companies
1. During the summer months, the early morning hours are the best time to wash a car unless you
can wash and dry it in the shade. Never wash a car under the hot sun. All paint is subject to water
spot damage when washed under the sun due to high surface temperature.
2. Thoroughly rinse oft the surface dirt and foreign materials with a spray of clean tap water.
3. Gently apply detergent and water solution (Nissan P/N 999MP-A3100), keeping it wet for 4-5
minutes. To avoid scratching the finish, do not rub, gently move the solution around with light
pressure. Do not allow the solution to dry before rinsing. Use, clean warm water and a clean terry
cloth towel. Frequently rinse off the terry cloth towel to avoid scratches from entrapped dirt.
Replace the towel with a clean one once it becomes soiled.
Caution:
When washing a convertible rear window use gentle horizontal and vertical strokes, do not use a
circular motion.Use a clean terry cloth towel. Also refer to NTB92-092 for additional information on
convertible wash procedure.
4. Rinse with a spray of clean tap water. Make sure all detergent is flushed off the body. If soap
dries on the convertible rear window or some moldings it may cause streaking. Use a spray of
de-ionized water for the final rinse.
5. Use a clean damp terry cloth towel and gentle pressure to remove the majority of the rinse water
allowing the remaining water film to air dry. Replace the towel frequently to avoid scratches from
entrapped dirt.
6. Always wash, rinse, and dry a vehicle beginning with the roof and glass. Then the hood and
trunk followed by the vertical surfaces. Wash, rinse, and dry one section at a time if low humidity
causes fast drying. Do not allow soap solution or rinse water to dry on the finish.
B. Identifying Contamination
Examine the vehicle in both strong sunlight and indoor fluorescent lighting (inspection is easier with
a hand held 500 watt halogen lamp or a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is most easily done with a
8X and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Page 9429
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2684
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3162
Fuel Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION Tank fuel temperature sensor
Check resistance by heating with hot water as shown in the figure or a heat gun. If NG, replace
tank fuel temperature sensor.
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 5540
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2358
Page 6402
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2888
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9487
Brake Light Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Service and Repair
Band Apply Servo: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Automatic Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 2370
^ C-III PCMCIA Card Adapter is installed.
^ C-III Security Card is installed.
^ A screen print for Warranty documentation can be done from C-III during this process while still
cable-connected to the vehicle.
1. Use the USB cable to connect the Vehicle Interface (VI) to the C-III computer and then connect
the VI to the vehicle.
CAUTION
2. Connect the AC Adapter to the C-III computer.
CAUTION
3. Connect a battery charger to the vehicle battery:
For Conventional Vehicles
^ Set the battery charger at a low charge rate.
NOTE:
The GR-8 (Battery and Electrical Diagnostic Station) set to "Power Supply" mode is recommended.
CAUTION
For Hybrid Vehicles
^ Use the GR-8 Battery and Electrical Diagnostic Station.
^ If needed, refer to Hybrid Service TSBs for connecting the GR-8 to the Hybrid 12V battery.
Page 1141
Type Of Standardized Relays (Part 2 Of 2)
Page 4336
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Drivetrain - Transfer Case Noise/Hard Shifting
Universal Joint: All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 7793
Tie Rod: Service and Repair
STEERING LINKAGE
REMOVAL AND INSTALLATION
Refer to the illustrations when servicing.
1. Remove pitman arm with Tool.
Page 4388
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Page 1880
- Be careful not to damage cylinder head gasket.
- Be sure to install new front oil seal.
7. Install the following parts:
- Crankshaft pulley Oil strainer and oil pan.
- Component parts below the engine.
- A/C compressor idler pulley.
- New cylinder head gasket.
- Idler shaft.
8. Install the oil pump.
- Make sure the flat side of the distributor drive shaft is facing the engine.
9. Install cylinder head and temporarily tighten cylinder head bolts when installing front cover.
- Apply new engine oil to bolt threads and seat surfaces.
- Temporarily tighten cylinder head bolts. This is necessary to avoid damaging cylinder head
gasket.
- Be sure to install washers between bolts and cylinder head.
UPPER TIMING CHAIN
1. Install lower timing chain.
2. Install upper timing chain, chain tensioner.
- Set upper timing chain on the idler sprockets, aligning mating marks.
- When installing chain tensioner, insert a suitable pin into pin hole to stop piston.
Page 3422
- Use the same procedure as mentioned in step 4.
7. If all valve clearances are within specification, install the following parts.
- Rocker cover
- All spark plugs
ADJUSTING
Adjust valve clearance while engine is cold. 1. Turn crankshaft to position cam lobe on camshaft of
valve that must be adjusted upward. 2. Place Tool (A) around camshaft as shown in figure.
3. Rotate Tool (A) so that lifter is pushed down.
Before placing Tool (A), rotate notch toward center of cylinder head (See image), to simplify shim
removal later.
CAUTION: Be careful not to damage cam surface with Tool (A).
4. Place Tool (B) between camshaft and the edge of the valve lifter to retain valve lifter.
CAUTION: Tool (B) must be placed as close to camshaft bracket as possible.
- Be careful not to damage cam surface with Tool (B).
5. Remove Tool (A).
6. Remove adjusting shim using a small screwdriver and a magnetic finger.
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 8987
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2849
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8995
Cigarette Lighter: Connector Views
Cigarette Lighter
Cigarette Lighter Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 763
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Page 5827
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1305
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4107
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Specifications
Water Pump: Specifications
CAUTION: When removing water pump assembly, be careful not to get coolant on drive belts.
- Water pump cannot be disassembled and should be replaced as a unit.
- After installing water pump, connect hose and clamp securely, then check for leaks using radiator
cap tester.
REMOVAL
1. Drain coolant from engine. 2. Remove fan coupling with fan. 3. Remove power steering pump
drive belt, generator drive belt and A/C compressor drive belt. 4. Remove water pump.
INSPECTION
- Check body assembly for rust or corrosion.
- Check for rough operation due to excessive end play.
INSTALLATION
1. Use a scraper to remove liquid gasket from water pump.
- Also remove traces of liquid gasket from mating surface of cylinder block.
Page 5868
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7112
Brake Pedal Assy: Testing and Inspection
COMPONENTS
INSPECTION
Check brake pedal for following items: Brake pedal bend
- Clevis pin deformation
- Crack of any welded portion
- Crack or deformation of clevis pin stopper
Diagram Information and Instructions
License Plate Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 9593
1. Remove the door finisher assembly.
2. Remove the sealing screen and the door speaker (if equipped).
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
nuts can be seen.
4. Remove the glass mounting nuts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove the regulator assembly.
7. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-D: DOOR SASHLESS + MODULE TYPE (FR)
1. Remove the door finisher assembly.
2. Remove the harness connector and the door speaker (if equipped).
Page 9291
Dome Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5324
Page 5034
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3885
Ground Distribution
Rear Wheel Bearing Nut Torque
Axle Nut: Specifications Rear Wheel Bearing Nut Torque
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 4926
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5772
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4217
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7197
Wheel Cylinder: Testing and Inspection
- Check wheel cylinder for leakage.
- Check for wear, damage and loose conditions. Replace if any such conditions exists.
Page 8020
Page 3228
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7039
Torque Converter Clutch Solenoid: Description and Operation
SYSTEM DESCRIPTION
The ECM controls torque converter clutch solenoid valve to cancel the lock-up condition of A/T.
When the solenoid valve is turned on, lock-up is cancelled. When the solenoid valve is turned oft,
A/T lock-up is operational.
Conditions for lock-up cancel: Torque converter clutch solenoid valve is turned "ON" when; Throttle valve is fully closed (during idling or deceleration)
- Engine coolant temperature is below 40° C (104° F)
- Engine is stopped
Conditions for lock-up operation: Under 55 to 63 km/h (34 to 39 MPH) (2/8 throttle on flat road), lock-up does not operate even when
the torque converter clutch solenoid valve is "OFF".
- Over 58 to 66 km/h (36 to 41 MPH) (2/8 throttle on flat road), lock-up should operate because the
torque converter clutch solenoid valve is "OFF". To confirm vehicle lock-up, the torque converter
clutch solenoid valve must be in operation ("ON" during idle and deceleration, and "OFF" during
acceleration) and engine speed should drop. When the accelerator pedal is depressed (less than
2/8) in lock-up, the engine speed should not change abruptly. If there is a big jump in engine
speed, there will be no lock-up.
CONSULT REFERENCE VALUE IN DATA MONITOR MODE
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
ON BOARD DIAGNOSIS LOGIC
DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE
CAUTION: Always drive vehicle at a safe speed.
Page 8375
^ Latch and unlatch it. Allow it to retract back into the retractor mechanism several times.
14. Repeat steps 1 through 13 on the remaining front seat belt.
Page 9508
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1733
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Passenger Compartment (Part 1 Of 2)
Passenger Compartment
Page 4218
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4513
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Specifications
Impact Sensor: Specifications Crash Zone Sensor
Crash Zone Sensor
Special Bolt(s) 15 - 25 Nm
Page 8800
Page 783
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3004
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6538
9. Disconnect the key lock rod from the A/T shifter assembly by removing the pin clip. Retain this
pin clip for reuse (see Figure 6).
10. Disconnect the brake pedal interlock solenoid harness located under the steering column
assembly (see Figure 6).
11. Disconnect the A/T cable from the rear of the A/T shifter assembly by prying the connector
straight back with a door trim removal tool (see Figure 7).
12. Remove the (2) 6mm bolts securing the assembly (see Figure 8).
Page 562
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5410
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1138
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 878
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Brakes - ABS Sensor Precaution Using On Car Brake
Lathe
Wheel Speed Sensor: Technical Service Bulletins Brakes - ABS Sensor Precaution Using On Car
Brake Lathe
Classification: BR99-006
Reference: NTB99-040
Date: June 16, 1999
NISSAN ABS SENSOR CAUTION WHEN USING ON-CAR BRAKE LATHE
APPLIED VEHICLES: All Nissan Vehicles With ABS
SERVICE INFORMATION When using an on-car brake lathe to resurface rotors, be sure to
prevent metal shavings from contacting or collecting on the ABS wheel speed sensor. Metal
shavings that collect on the ABS wheel speed sensor may cause the ABS warning light to come
on, or, may cause intermittent activation of the ABS under normal braking conditions.
SERVICE PROCEDURE Use the following procedure to prevent accumulation of metallic shavings
on the ABS wheel speed sensor magnet when using an on-car brake lathe: 1.
When the vehicle is on the service lift, make sure the ignition key is in the "off" position.
NOTE:
Rotating a wheel, monitored by an ABS wheel speed sensor, while the ignition key is in the "on"
position, may trigger a wheel speed sensor error code. The warning light may remain on even after
the self diagnoses memory is cleared with CONSULT. If this occurs, the warning light will turn off
when driving over 9 mph (20 Km/h) after clearing the self diagnoses memory.
2. Prevent metal shavings from contacting or collecting on the ABS wheel speed sensor magnet
during rotor resurfacing.
3.
Clean and remove all metallic particles from the surface of the rotor and the ABS wheel speed
sensor magnet after rotor resurfacing. The ABS wheel speed sensor can be cleaned with
compressed air.
CAUTION:
Always wear safety goggles when applying compressed air.
NOTE:
If the rotor must be removed for cleaning and/or other purposes after resurfacing is complete, mark
its exact location on the axle prior to removal. Incorrect alignment during reinstallation will cause
the run-out to change, possibly exceeding specifications. This could require the rotor to be turned
again.
Page 7734
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 110
8. Select the detected VI from the list. (See Figure 1.)
9. Select Connect. (See Figure 1.)
10. Wait for the "Checking the firmware version" message to clear.
11. Select ECM reprogramming / Programming (see Figure 2).
12. Select Select.
Page 9178
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5892
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9180
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8585
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5566
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 354
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Instruments - Fuel Gauge Inaccurate
Speedometer Module: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 5295
Leak Detection Sensor: Testing and Inspection
COMPONENT INSPECTION EVAP Control System Pressure Sensor
1. Remove EVAP control system pressure sensor with its harness connector connected. 2.
Remove hose from EVAP control system pressure sensor. 3. Use pump to apply vacuum and
pressure to EVAP control system pressure sensor as shown in figure. 4. Check output voltage
between ECM terminal (62) and engine ground.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -20 kPa (-150 mmHg, -5.91 inHg) or pressure over 20.0 kPa (150
mmHg, 5.91 inHg).
5. If NG, replace EVAP control system pressure sensor.
Page 8374
8. As the tape rolls up to the "D" ring, center and smooth the tape around the back side of the "D"
ring. Press the bubbles and wrinkles out with your fingers (see Figure 7).
9. Peel off the remaining tape backing (see Figure 8A).
10. Carefully apply the tape around the remainder of the "D" ring. Press down the edges and make
sure there are no wrinkles (see Figure 8B).
11. Pull the seat belt back and forth against the tape-covered "D" ring to ensure that the tape is
firmly applied (see Figure 9).
12. Remove the binder clip from the seat belt.
13. Confirm the seat belt moves smoothly and quickly through the "D" ring.
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4406
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor Heater
COMPONENT INSPECTION Front Heated Oxygen Sensor Heater
Check resistance between terminals (3) and (1).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
Check continuity between terminals (2) and (1), (3) and (2). Continuity should not exist. If NG,
replace the front heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Suspension - Steering Pull Diagnosis
Alignment: All Technical Service Bulletins Suspension - Steering Pull Diagnosis
Classification: ST01-003
Reference: NTB01-083
Date: November 28, 2001
1998-2002 FRONTIER AND 2000-2002 XTERRA STEERING PULL DURING BRAKING
APPLIED VEHICLES: 1998-2002 Frontier (D22) 2000-2002 Xterra (WD22)
SERVICE INFORMATION
If an applied Frontier or Xterra exhibits a slight steering pull (left or right) during:
^ Moderate application of the brakes to bring the vehicle to a complete stop from a speed of
between 20 and 30 mph.
The following steps should be performed in order given;
1. The vehicle suspension should be inspected.
2. Vehicle ride height should be checked.
3. Alignment should be checked to ensure that all measurements are within factory specifications.
When performing an alignment, refer to the appropriate Electronic Service Manual (ESM) for
specifications and adjustment procedures.
Page 7575
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
Page 6150
Description (Part 1 Of 2)
Page 4038
27. Select the correct vehicle and model year from the list (see Figure 13 example).
28. Select Select
29. Make sure the correct vehicle is displayed (see Figure 14 example).
30. Select Confirm
Page 3481
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9210
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5815
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3858
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6725
Carrier Side Gears: Specifications Rear Differential
Page 870
Ground Distribution
Page 5752
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 2414
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4192
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4594
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3943
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 382
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Locations
Fusible Link: Locations
Component Parts And Harness Connector Location
Page 976
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6131
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 379
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4122
Type Of Standardized Relays (Part 2 Of 2)
Body - Window Regulator/Motor Service Update
Power Window Motor: Technical Service Bulletins Body - Window Regulator/Motor Service Update
Classification: BT04-021
Reference: NTB04-064
Date: May 25, 2004
NISSAN; WINDOW REGULATOR/MOTOR SERVICE
APPLIED VEHICLES: All Nissan
APPLIED DATES: 1995 to current date
SERVICE INFORMATION
If you should need to service the window regulator or motor on an Applied model, removing the
door window is no longer needed.
See the chart to find out which revised service procedure in this bulletin applies to the vehicle you
are working on.
Removal and Installation of Regulator Assembly
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
Page 5812
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3992
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3122
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2573
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3258
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 913
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2780
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Rear Heated Oxygen Sensor (Max. Voltage Monitoring) (Rear HO2S) (DTC: P0138)
Circuit Connectors
Minimum Voltage Monitoring
Rear Heated Oxygen Sensor (Min. Voltage Monitoring) (Rear HO2S) (DTC: P0137)
Page 4712
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Specifications
Wheel Cylinder: Specifications
Cylinder Bore Diameter 0.8125 in
Bleeder Screw 61 - 78 in.lb
Crank Lever Bolt 14 - 18 ft.lb
Crank Lever Nut 20.8 - 39.1 in.lb
Mounting Bolts 52 - 95 in.lb
Pulley Bolt 40 - 54 ft.lb
Page 5481
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 923
EGR Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The EGR temperature sensor detects temperature changes in the EGR passage way. When the
EGR valve opens, hot exhaust gases flow, and the temperature in the passage way changes. The
EGR temperature sensor is a thermistor that modifies a voltage signal sent from the ECM. This
modified signal then returns to the ECM as an input signal. As the temperature increases, EGR
temperature sensor resistance decreases. This sensor is not used to control the engine system. It
is used only for the on board diagnosis.
Page 2746
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 5632
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2244
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Locations
Shift Interlock Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 8761
^ An industrial fallout remover (i.e. oxalic acid) such as Zep Industrial Fallout Remover(TM)
X-20472 by Zep Manufacturing Company or equivalent; or
^ A chemical neutralization system such as ValuGard(TM) 3-Step Neutralization/Decontamination
System by Automotive International, Inc., or equivalent.
WARNING:
Read and follow the manufacturer's procedure before using.
C. Heavy Damage (deep into the clear and/or color coat)
This step will require wet sanding and/or repainting. Contact your local paint refinish supplier for
recommended procedures such as BASF Corporation Rail Dust repair procedure,
Sherwin-Williams Ultra 7000 Basecoat System or equivalent.
CAUTION:
Only an experienced paint technician, who is familiar with proper refinishing techniques should
perform the above repair.
For more information on identifying and diagnosing iron particles and other paint issues, refer to the
Nissan/Infiniti Paint Incident Identification Manual, P/N 5PII00. Call DYMENT: 1-800-247-5321 for a
copy of the Nissan/Infiniti Paint Incident Identification Manual, P/N 5PII00.
CLAIMS INFORMATION
Section 1 of the Assurance Products Resource Manual (under "Environmental Damage") states,
Since Environmental Damage is generally excluded from the Nissan's New Vehicle Limited
Warranty, repairs for such damage do not generally qualify for reimbursement as warranty
expense. However, if damage is noted at the time of delivery, the dealer may submit a
transportation claim. Upon vehicle delivery, note environmental damage on the carrier's delivery
receipt. The carrier's delivery receipt must be signed by both the carrier driver and dealership
personnel.
Environmental damage must be noted at the time of vehicle delivery. The Claims Call Center,
Transportation Department, must also be contacted for pre-approval of repairs on all environmental
damage claims. Failure to comply with either of the above will result in transportation claim denial
If environmental damage occurs while the vehicle is in the customer's possession, like any
non-warranty repair, it may be considered as a goodwill matter on strictly a case-by-case basis. If
you have such a repair which you believe may merit such a consideration, but it exceeds the
dealer's self-authorization authority, you may contact the Claims Call Center (1-800-258-7008).
Page 9383
Headlamp (For Canada) (Part 3 Of 3)
Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
USA
Page 696
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6399
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4158
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4519
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 906
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 721
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Page 5183
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 9559
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Locations
Horn Relay: Locations
Engine Compartment
Engine Compartment
Page 4022
Page 6019
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8957
Diagnostic Procedure 2 (Without Power Door Locks)
Diagnostic Procedure 3 (Seat Belt Buckle Switch Input Signal Check)
Models With Power Door Locks
Diagnostic Procedure 3 (With Power Door Locks)
Models Without Power Door Locks
Page 5740
Ground Distribution
Steering/Suspension - Pull Or Drift Diagnostics
Alignment: All Technical Service Bulletins Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Page 1061
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 943
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6297
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7783
STEERING GEAR MODEL PB59K
Before disassembling power steering gear component parts, make sure there is no oil leakage
around sealing portion and check steering turning torque as follows: Check sealing portion. ^
Sector shaft cover O-ring
^ Sector shaft U-packing
^ Sector shaft oil seal
^ Rear housing O-ring
^ Gear housing O-ring
NOTE: ^
Discard any oil seal and O-ring which have been removed.
^ Replace oil seal and O-ring if sealing surface is deformed or cracked.
Page 4836
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 1904
Page 6496
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4938
A. Apply battery voltage (see Figure 1) and look into the hose end of the valve to confirm the air
passage closes (and seals).
NOTE:
The valve must function (click) on the first application of battery voltage.
B. While looking into the hose end of the valve, disconnect the battery voltage and confirm the air
passage re-opens fully and immediately (the valve should not stick closed).
C. Repeat steps A and B above to confirm the valve closes and re-opens consistently.
2. Confirm the sealing O-ring (for the valve) is:
^ Correctly positioned and is not damaged (see Figure 1)
^ Adequately lubricated with Texaco Canopus 13 mineral oil (P/N 999MP-AJ000)
3. Make sure the water separator and related hoses are not blocked by debris or insects.
NOTE:
If a Maxima, Truck or 240SX is not equipped with a water separator, refer to the listed TSB(s) to
install one.
1998 and Later CONSULT Compatible Vehicles
1. Check the operation of the EVAP vent control valve using CONSULT or CONSULT-II as follows:
A. Connect CONSULT (or CONSULT-II) and turn the ignition key to the ON position. Do not start
the engine.
B. Touch "Start".
C. Touch "Engine".
D. Touch "Active Test".
E. Touch "Vent Control/V".
F. Touch "ON" and look into the hose end of the valve to confirm the air passage closes (and
seals).
NOTE:
The valve must function (click) on the first application of the "ON" selection.
Page 6122
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 395
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7063
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3581
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 539
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3188
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7108
Brake Bleeding: Service and Repair
CAUTION:
^ Carefully monitor brake fluid level at master cylinder during bleeding operation.
^ If master cylinder is suspected to have air inside, bleed air from master cylinder first.
^ Fill reservoir with new brake fluid DOT 3. Make sure it is full at all times while bleeding air out of
system.
^ Place a container under master cylinder to avoid spillage of brake fluid.
^ Turn ignition switch OFF and disconnect ABS actuator and electric unit connector or battery
cable.
^ Bleed air in the following order: a. Load Sensing Valve (LSV) air bleeder (Models equipped with
LSV) b. Left rear brake c. Right rear brake d. Left front brake e. Right front brake f.
ABS actuator and electric unit
1. Connect a transparent vinyl tube to air bleeder valve. 2. Fully depress brake pedal several times.
3. With brake pedal depressed, open air bleeder valve to release air. 4. Close air bleeder valve. 5.
Release brake pedal slowly. 6. Repeat steps 2 through 5 until clear brake fluid comes out of air
bleeder valve. 7. Tighten air bleeder to 7 - 9 Nm (61 - 78 inch lbs.)
Paint - Spotting Prevention & Repair
Paint: All Technical Service Bulletins Paint - Spotting Prevention & Repair
Classification: BF87-030
Reference: TS87-145
Date: September 28, 1987
PAINT SPOTTING REPAIR PROCEDURE
APPLIED VEHICLE(S): All Models
SERVICE INFORMATION
Paint spotting incidents occurring in the U.S. market are not unique to Nissan, but are being
experienced by all manufacturers. To date, two separate types of paint spotting incidents have
been identified as follows:
1. Particulate Fallout - Tiny solid particles which collect on horizontal panels, causing a dark stain
which will penetrate into the paint if not cleaned.
2. Water Spotting - A ringlet or multiple water-drop-shaped light discoloration on dark painted
horizontal panels.
THESE TYPES OF SPOTTING ARE NOT DUE TO PAINT DEFICIENCY, AND CAN BE
PREVENTED THROUGH PROPER CARE.
SERVICE PROCEDURE
Particulate Fallout
Ash, dust, soot and other tiny solid particulate matter from industrial and other sources can be
carried many miles. Particulate fallout is most noticeable on the horizontal surfaces (hood, luggage
compartment lid, and roof) of the vehicle.
If left on a moist, painted surface, the particles will slowly dissolve and bond to the paint, frequently
leaving a red stain. This stain can be present even on plastic surfaces such as bumpers if the
fallout has an iron content. These spots may be visible on both solid and metallic paints (especially
light colors). The particulate can be felt as a sharp point on the paint surface. When viewed through
a magnifying lens, the staining may be evident.
VEHICLE CARE
Every 10 days, or more frequently depending upon local conditions, particulate fallout must be
washed off with mild detergent and water to prevent its bonding and staining action. A good
carnuba wax coating can help protect against damage from particulate fallout.
PARTICULATE FALLOUT REPAIR PROCEDURE
In most cases, thoroughly washing the affected area with a water and mild detergent solution (to
avoid scratching the finish with dislodged particles) will remove the particulates.
After washing the vehicle, a stain, generally orange or red, may still be visible on white or other
light colored vehicles. This stain can be removed with a fine compound material. DO NOT APPLY
THE COMPOUNDING MATERIAL BEFORE ALL PARTICLES IN THE AFFECTED AREA ARE
REMOVED BY THOROUGH WASHING.
Water Spotting
A photograph of typical water spotting is shown on page 26 of the Nissan Paint Refinishing Guide*
(PIN 5REFGD). The spots are most visible when viewed at an angle, usually under fluorescent
light. The paint surface is usually smooth to the touch because the spotting is a change in the top
surface itself. This is not hard-water residue which will wash off with soap and water. These spots
are visible on both solid and metallic paints with dark colors.
VEHICLE CARE
When a vehicle is stored outside and unprotected, dust patterns develop on the painted surfaces.
These patterns guide moisture droplets from a light rain or morning dew to the same location each
time. The strong sunlight, repeatedly concentrated on these water droplets, greatly contributes to
the spotting. When storing a vehicle unprotected, where the painted surface is repeatedly exposed
to a combination of sunlight and light rain (or morning dew), the vehicle MUST be washed AND
thoroughly dried at least every two weeks, or more frequently if there is light rain or dew followed
by strong sunlight.
Page 1136
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3219
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4457
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7151
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Page 1444
b. Apply the above two values to the chart and determine point "A". c. The coordinate (or
graduation) indicates that both the front and rear adjusting bolts must be turned outward by 3
graduations. d. Turn the adjusting bolts by the amount corresponding with the 3 graduations.
TOE IN
WARNING: ALWAYS PERFORM THE FOLLOWING PROCEDURE ON A FLAT SURFACE.
MAKE SURE THAT NO ONE IS IN FRONT OF THE VEHICLE BEFORE PUSHING IT.
Measure toe-in using the following procedure.
1. Bounce front of vehicle up and down to stabilize the posture.
2. Push the vehicle straight ahead about 5 m (16 ft.).
3. Put a mark on base line of the tread (rear side) of both tires at the same height of hub center.
This mark is a measuring point.
4. Measure distance "A" (rear side).
5. Push the vehicle slowly ahead to rotate the wheels 180° (1/2 turn). If the wheels have rotated
more than 180° (1/2 turn), try the above procedure
again from the beginning. Never push vehicle backward.
6. Measure distance "B" (front side).
Total toe-in: Refer to Specification Table.
7. Adjust toe-in by varying the length of both steering tie rods.
a. Loosen clamp bolts or lock nuts. b. Adjust toe-in by turning both the left and right tie rod tubes
equal amounts.
Page 2417
Engine Control Module: Description and Operation
COMPONENT DESCRIPTION
The ECM consists of a microcomputer, diagnostic test mode selector, and connectors for signal
input and output and for power supply. The unit controls the engine.
Locations
Circuit Breaker: Locations
Passenger Compartment (Part 1 Of 2)
Page 8033
4. Apply multi-purpose grease to each bearing cone.
5. Pack grease seal lip with multi-purpose grease, then install it into wheel hub with suitable drift.
Page 1317
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5231
Optional Splice
Example Diagrams
Page 518
Optional Splice
Example Diagrams
Page 3605
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 7072
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9169
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2480
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 8201
^ Do not introduce compressed air to any refrigerant container or refrigerant component, because
contamination will occur.
^ R-134a in the presence of oxygen and under pressure may form a combustible mixture.
Therefore, never introduce compressed air into any R-134a container, cylinder, A/C component,
recover/recycle equipment, or other service equipment. This includes "empty" containers.
Refrigerant Terminology
Please use the correct name or names when specifying refrigerants. The guidelines are listed
below:
^ Freon --> is a registered trademark of DuPont, and should only be used if referring to DuPont
R-12.
^ DuPont's trade name for R-134a (automotive use) is Suva-->Trans A/C.
^ When referring to refrigerants, the terms Freon-->and Suva--> should not be used as a general
reference. The proper terms are R-12 and R-134a
Comments regarding refrigerants:
^ R-12 and R-134a are not compatible with each other and should never be mixed, even in the
smallest amounts.
^ R-134a for automotive use has a special tank fitting size (1/2" - 16 ACME) which is compatible
with automotive service equipment
^ When purchasing R-134a, be certain that the fitting size on the tank is 1/2" - 16 ACME. This
thread size is easy to recognize by the square thread, as shown.
^ Although R-134a has no ozone depletion potential (ODP), it does have a slight global warming
potential (GWP). Due to this slight GWP, as well as its high cost, venting of R-134a into the air is
not recommended.
^ Recovery/recycling of R-134a will be required by U.S. Federal Law, Clean Air Act Amendments of
1990.
Page 988
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4803
Type Of Standardized Relays (Part 2 Of 2)
Page 4804
Vehicle Speed Sensor: Connector Views
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor (VSS) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 1393
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
Page 886
Vehicle Speed Sensor: Description and Operation
COMPONENT DESCRIPTION
The vehicle speed sensor is installed in the transaxle. It contains a pulse generator which provides
a vehicle speed signal to the speedometer. The speedometer then sends a signal to the ECM.
Page 7753
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1059
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7508
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5973
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7349
Description (Part 1 Of 2)
Page 2893
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5821
Throttle Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2546
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8027
Page 924
EGR Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION EGR Temperature Sensor
Check resistance change and resistance value. If NG, replace EGR temperature sensor.
Page 1012
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1695
Comments regarding vacuum pump use:
^ The lubricant contained inside the vacuum pump is not compatible with the lubrication for R-134a
A/C systems.
^ The vent side of the vacuum pump is exposed to atmospheric pressure, causing the vacuum
pump lubricant to migrate out of the pump if the pump is switched oft after evacuation (vacuuming)
and there is no shut off valve between the pump and the hose.
^ To prevent the migration of vacuum pump lubricant into service hoses, it is necessary to use a
valve (which can be manually opened or closed) near the connection of the service hose to the
pump.
^ On a vacuum pump which is equipped with an isolation valve (usually part of the vacuum pump),
closing this valve will isolate the service hose from the pump.
^ For pumps without an isolation valve, be certain that the service hose is equipped with a manual
shut off valve near the pump end of the hose.
^ Hoses which contain an automatic shut off valve at the end of the service hose must be
disconnected from the vacuum pump to prevent the migration of lubricant; as long as the hose is
connected, the valve is open and lubricant may migrate (with pump off).
^ One-way valves which open when vacuum is applied and close under a no vacuum condition are
not recommended, because this valve may restrict the pump's ability to pull a deep vacuum.
Page 7010
Description (Part 1 Of 2)
Diagram Information and Instructions
Idle Up Control Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 915
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7457
Component Parts And Harness Connector Location
Page 3994
Ground Distribution
Page 1098
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 607
Ground Distribution
Page 6002
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5245
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4697
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6139
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1539
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 4556
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4719
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 4582
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Specifications
Diagnosis Sensor Unit: Specifications Diagnosis Sensor Unit
Diagnosis Sensor Unit
Special Bolt 15 - 25 Nm
Page 5400
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4353
Oxygen Sensor: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 903
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 2448
Description (Part 1 Of 2)
Page 4322
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5500
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9444
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7131
3. Install all parts and secure all bolts.
CAUTION: ^
Refill with new brake fluid DOT 3.
^ Never reuse drained brake fluid.
4. Bleed air.
Page 581
Type Of Standardized Relays (Part 2 Of 2)
Page 2904
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Diagram Information and Instructions
Intake Air Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1659
Refrigerant: Technical Service Bulletins A/C - R134a Charge Amount/Lubricant Chart
Classification: HA95-013
Reference: NTB95-068
Date: July 5, 1995
R134a CHARGE AMOUNTS/PAG LUBRICANT CHART
APPLIED VEHICLE(S): All equipped with R134a A/C systems
SERVICE INFORMATION For reference, the chart in this bulletin has been prepared. It contains
information by vehicle model and year regarding A/C systems conversion dates to R-134a type
systems. Please note, the dates shown indicate the conversion date at the manufacturing level, not
on dealer installed units.
Page 8055
Air Door: Adjustments Intake Door
Recirculation control cable
^ Move recirculation lever to REC position. Set recirculation lever in REC mode. Pull on outer cable
in direction of arrow and then clamp it.
^ After positioning recirculation control cable, check that it operates properly.
Page 2640
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6124
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2507
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 146
Engine Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3599
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8178
Additionally the PAG lubricant type, part numbers and system recharge amounts are listed for each
model.
Page 1977
Valve Spring: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 9526
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 412
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2744
13. Use compressed air to remove any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
14. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
15. Tilt the manifold/catalyst/front tube so that the metal debris falls out of the part.
16. Apply compressed air through the boss to blow out any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
17. Install the new sensor as described in the applicable Electronic Service Manual (ESM).
Air-Tight Check
Vacuum Brake Booster: Testing and Inspection Air-Tight Check
Testing Brake Booster
- Start engine, and stop it after one or two minutes. Depress brake pedal several times slowly.
Booster is airtight if pedal stroke is less each time.
- Depress brake pedal while engine is running, and stop engine with pedal depressed. The pedal
stroke should not change after holding pedal down for 30 seconds.
Page 2580
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1614
Differential Fluid - M/T: Fluid Type Specifications
Differential Carrier Gear Oil
Standard differential gear ....................................................................................................................
............................................................. API GL-5 Limited-slip differential gear LSD) ..........................
...................................................................................................................................... *API GL-5
*Note: Use only LSD gear oil API GL-5 and SAE 80W-90 approved for Nissan LSD. SAE 90 is
acceptable in ambient temperatures above -18°C (0° F).
Page 2451
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 463
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3341
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8594
Radio/Stereo: Electrical Diagrams
EL-AUDIO-01 Audio (Part 1 Of 2)
With Base Audio System Circuit Diagrams
Page 3046
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7958
TRANSFER CASE DIAGNOSTIC TABLE
Page 1663
Comments regarding PAG refrigerant oils:
^ PAG oil absorbs moisture from the air at an exceptionally fast rate, and moisture can damage the
A/C system.
Page 4316
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5934
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5776
Ground Distribution
Page 2285
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7739
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4700
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7037
Torque Converter Clutch Solenoid: Electrical Diagrams
EC-LKPU-01 Torque Converter Clutch Solenoid Valve (DTC: P1775)
Circuit Diagrams
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Page 3153
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7644
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5190
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 8061
Page 3079
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4462
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5243
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1087
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4652
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5497
Fuel Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4343
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 6521
6. Disconnect the overdrive (O/D) switch connector located on the top of the steering column and
remove it from the mounting bracket using a door trim removal tool. (see Figure 4).
CAUTION:
Be careful not to break the connector or the bracket. If the bracket is unavoidably broken, see Step
22 of this procedure.
7. Expose the clevis pin by sliding back the rubber boot from the base of the shifter lever (see
Figure 5). Remove and retain the pin clip and the clevis pin.
8. Out the tie wrap that secures the overdrive switch wire to the main shifter pivot rod and remove
the shift lever from the A/T shifter assembly (see Figure 5).
NOTE:
The shift lever, pin and clip will be reused.
Steering/Suspension - Wheel Bearing Collision Damage
Wheel Bearing: Technical Service Bulletins Steering/Suspension - Wheel Bearing Collision
Damage
Classification: FA10-006
Reference: NTB10-126
Date: October 21, 2010
WHEEL BEARING COLLISION DAMAGE
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Impacts to wheel bearings (such as a collision or other suspension damage) may create slight
indents in the bearing surfaces. These indents may not be visible but can cause bearing noise.
NOTE:
Hub/bearing replacement due to impact (collision or other suspension damage) is not a
warrantable repair
If a vehicle has visible wheel or suspension damage due to impact (collision or other suspension
damage), it is recommended that the wheel bearing assembly be inspected as follows:
1. Remove the hub/bearing assembly from the vehicle.
2. Hold the hub/bearing assembly with both hands.
3. Rotate the hub/bearing assembly in both directions (clockwise and counterclockwise).
4. If any gritty or rough feeling is detected in the bearing replace it with a new one.
Page 8881
Brake Switch (Cruise Control): Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 1569
PARTS INFORMATION
CLAIMS INFORMATION
For Bracket Installation Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Bracket Installation and Hose Angle Adjustment Only:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
For Evacuate Replace A/C Low Hose and Recharge System:
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Additional Expenses for P81633 ONLY.
Information
Diagram Information and Instructions
Tail Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4289
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7315
^ Batteries installed in vehicles produced in Japan have a JIS number embossed in the plastic on
top of the battery.
^ These vehicles have a VIN that begins with the letter "J".
Batteries with CCA (Cold Cranking Amps) Number
^ Batteries installed in vehicles produced in North America have a CCA number displayed on the
label attached to the top of the battery.
^ These vehicles have a VIN that begins with a number: 1, 3, or 5.
Selecting CCA or JIS in the GR-8 Battery Tester
Vehicles with JIS Battery
^ Select JIS, then choose the option that matches the first five (5) characters of the JIS number on
the battery.
NOTE:
DO NOT select CCA when testing a JIS battery.
Vehicles with CCA Battery
^ Select CCA, then choose the option that matches the number following "Cold Cranking Amps" on
the battery.
Reference Material
The following information can be printed and attached to the GR-8, if needed.
Page 4269
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 8968
Optional Splice
Example Diagrams
Page 7569
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Page 6258
Type Of Standardized Relays (Part 2 Of 2)
Page 9301
Dome Lamp: Electrical Diagrams
MODELS WITH POWER DOOR LOCKS
EL-ROOM/L-01 Interior Room Lamp (Part 1 Of 3)
Page 2748
Oxygen Sensor: Locations
ECCS Component Parts Location
Page 1281
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4075
Type Of Standardized Relays (Part 2 Of 2)
Page 2989
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7348
Optional Splice
Example Diagrams
Page 603
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1445
NOTE: -
Make sure that the tie rod bars are screwed into the tie rod tube more than 35 mm (1.38 inch).
- Make sure that the tie rods are the same length.
Standard length (A = B):
2WD = 343.9 mm (13.54 inch) 4WD = 297.6 mm (11.72 inch)
c. Tighten clamp bolts or lock nuts, then torque them.
WHEEL TURNING ANGLE
1. Set wheels in straight-ahead position. Then move vehicle forward until front wheels rest properly
on turning radius gauge.
2. Rotate steering wheel all the way right and left; measure turning angle.
On power steering models, turn steering wheel to full lock and apply force (at circumference of
steering wheel) of 98 - 147 N (22 - 33 lbs.) with engine at idle.
CAUTION: Do not hold the steering wheel at full lock for more than 15 seconds.
Wheel turning angle (Full turn): Refer to Specification Table.
Page 7351
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4486
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Page 4640
Type Of Standardized Relays (Part 2 Of 2)
Page 4912
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 284
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 8975
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3177
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Diagram Information and Instructions
Ignition Output Signal: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 762
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 4617
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1421
^ Center the front wheels on the turn plates.
^ Chock the left rear wheel.
Preliminary Checks:
3. Perform pre-alignment checks.
^ Tire condition (wear, partial wear, flaws, etc.)
^ Road wheel condition (damage and deformation)
^ Tire pressure
^ Inspect for visible damage to any suspension components
^ Wheel bearing axial play
^ Ball joints of suspension arms
^ Shock absorber operation and visual check for oil leakage
^ Condition of axle and suspension (check for bushing cracks and slack)
^ Vehicle weight
> Empty - no cargo, luggage, or passengers
> Fuel level is full
Page 5871
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Engine Controls - ECM Programming Interruption
Recovery
Engine Control Module: Technical Service Bulletins Engine Controls - ECM Programming
Interruption Recovery
Classification: EC10-015
Reference: NTB10-078
Date: June 21, 2010
REPROGRAM INTERRUPTION RECOVERY PROCEDURE
SERVICE INFORMATION
A complete step-by-step General Procedure for CONSULT-III (C-III) ECM Reprogram Interruption
Recovery is now available by attachment in this bulletin.
While performing ECM (Engine Control Module) reprogramming, the reprogramming may stop
(become interrupted) before it is 100% complete.
One of two messages may appear:
^ The VI probe is disconnected on USB, please check the connection of the probe.
^ Reprogramming fail, "Error code 0".
In many cases, reprogramming recovery is possible and the ECM may not need to be replaced if
the complete ECM part number has been registered into the ECM before reprogramming stopped.
NOTE:
ECM is referred to as ECU in C-III.
The ECM Reprogram Interruption Recovery General Procedure applies to Technical Service
Bulletins that include ECM reprogramming published in April 2010 and later.
IMPORTANT: BEFORE STARTING REPROGRAMMING
^ Connect a battery charger to the vehicle battery.
^ Be sure to turn OFF all vehicle electrical loads.
^ For ECM reprogramming, the C-III MUST be connected to the VI using the USB cable.
^ Be sure to connect the AC Adapter.
Page 9394
Daytime Light Control Unit Inspection Table (Part 2 Of 2)
Daytime Light Control Unit Inspection Table
Page 8385
The top section of the tape (from which the backing sheet was peeled off in step 5) should be
placed so that it is pointing down toward the floor of the vehicle. The "unexposed" bottom section of
the tape should be pointing up toward the ceiling of the vehicle (see Figure 9A).
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 9B).
^ The unexposed bottom section of the tape will be pulled through and hang over the top of the "D"
ring (see Figure 9B). Stop pulling when you see this.
8. As the top section of the adhesive-exposed tape rolls up to the "D" ring, center and smooth the
tape around the back side of the "D" ring (see Figure 9B above and Figure 10).
NOTE:
Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned. Take care to
properly attach the tape to the "D" ring. Center the tape correctly on the "D" ring and smoothly
apply it to the "D" ring surface in these procedural steps so that no wrinkles or ridges are present.
IMPORTANT:
Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D" ring.
Replace the tape with a new piece if this should occur.
9. Run your finger over the surface of the newly applied tape to firmly apply it to the back side of
the "D" ring. Press down the edges of the tape, and smooth out any air bubbles or wrinkles (see
Figure 10).
10. Peel off the remaining, unexposed bottom section of the tape backing (see Figure 11A).
11. Carefully apply the tape around the remainder of the "D" ring. Take care to apply the tape so
that no wrinkles are present. Press down the edges of the tape (see Figure 11B).
Page 8126
CAUTION:
When installing high pressure tubes (with flange connections) to their mating parts, make sure the
flange is fully seated onto the mating part before the securing bolt is installed and tightened (see
Figure 4). If the securing bolt is installed and tightened before the tube flange is seated onto its
mating part, 0-ring damage and leaks can result.
Page 8926
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3344
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5569
Ground Distribution
Page 5214
EGR Valve: Description and Operation
COMPONENT DESCRIPTION Exhaust Gas Recirculation (EGR) Valve
The EGR valve controls the amount of exhaust gas routed to the intake manifold. Vacuum is
applied to the EGR valve in response to throttle valve opening. The vacuum controls the movement
of a taper valve connected to the vacuum diaphragm in the EGR valve.
Page 4669
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Locations
Key Reminder Switch: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 7218
- Check pistons for uneven surface, chips or cracks. Replace if any of these conditions are
observed.
CAUTION: Piston sliding surface is plated. Do not polish with emery sand paper even if rust or
foreign objects are stuck to sliding surface.
Slide Pin, Pin Bolt And Pin Boot Check for wear, cracks or other damage. Replace if any of these conditions are observed.
Rotor
Runout
1. Check runout using a dial indicator.
Make sure that wheel bearing axial end play is within the specifications before measuring.
2. If the runout is out of specification, machine rotor with on-car brake lathe ("MAD, DL-8700",
"AMMCO 700 and 705" or equivalent.
Thickness
If thickness variation exceeds the specification, machine rotor with on-car brake lathe.
Thickness variation (at least 8 positions): Maximum 0.02 mm (0.0008 inch)
ASSEMBLY
Page 8348
5. Peel off the top (smaller) backing sheet from one of the fluorine resin tapes (see Figure 5).
^ Two fluorine resin tape pieces are provided in the kit.
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
6A.
NOTE:
^ The sticky half should be down, toward the floor of the vehicle.
^ The unexposed (not sticky yet) half should be up, toward the ceiling of the vehicle.
Note the following before performing steps 7 and 8:
^ Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned.
^ Take care to properly attach the tape to the "D" ring.
^ Center the tape correctly on the "D" ring and smoothly apply it to the "D" ring surface so that no
wrinkles or ridges are present.
^ Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D"
ring. If this should occur, replace the tape with a new piece.
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 6B).
Page 341
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 9165
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Locations
Absolute Pressure Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 1667
Page 6952
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1267
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3094
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 5861
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4079
Page 4191
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6634
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5463
^ Some 2002 models use a new type EVAP System Pressure Sensor with different operational
characteristics.
^ Refer to the EC section of the appropriate Service Manual to determine which type sensor your
vehicle is equipped with.
^ Models that use the new type EVAP System Pressure Sensor will have a voltage reading that
varies with changes in the "barometric" pressure (atmospheric air pressure that changes with
altitude and/or weather conditions).
^ The usual voltage range obtained in step 4 with the new type EVAP System Pressure Sensor is
between 3.8 and 4.2 volts. Because this range will vary with barometric pressure, it is best to
compare readings with a known good vehicle.
^ Some 2002 models use the earlier type EVAP System Pressure Sensor (same as used on 2001
and earlier models). The normal range for the earlier type is 3.32 to 3.40 volts and does not vary
with barometric pressure.
5. Start the engine. Observe the EVAP System Pressure Sensor voltage.
^ If the value has reduced 0.04 volts or more from the reading obtained in step 4, the EVAP
Canister Purge Volume Control Solenoid Valve may be leaking.
^ Refer to the EC section of the appropriate Service Manual for inspection procedures of the EVAP
Canister Purge Volume Control Solenoid Valve, DTC P1444.
NOTE:
The EVAP Canister Purge Volume Control Solenoid Valve is located in the engine compartment.
6. Perform the DTC Confirmation Procedure for DTC P1491. Refer to the EC section of the
appropriate Service Manual for confirmation procedure steps and driving conditions.
7. If the DTC confirmation results are NG, do the following:
a. Refer to the EC section of the appropriate Service Manual to determine if the vehicle is equipped
with On-Board Refueling Vapor Recovery (ORVR).
^ If the vehicle has ORVR, go to b.
^ If the vehicle does NOT have ORVR, go to step 8.
b. Place a clamp on the Refueling EVAP Vapor Line near the fuel tank. The Refueling EVAP Vapor
Line is the larger hose (see figure 2). Use hose clamp (3M P/N # 08556-1), found in Fuel Injector
Cleaning Kit J-45701, or equivalent.
c. Retry DTC Confirmation Procedure
d. If the result is now OK, the Refueling Control Valve may be leaking and should be inspected.
Refer to the EC section of the appropriate
Page 7243
Brake Master Cylinder: Specifications Master Cylinder, ABS
DIMENSIONS
Bore Diameter .....................................................................................................................................
........................................... 25.40 mm (1.0 inches)
TIGHTENING SPECIFICATIONS
Mounting Nuts .....................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.) Flare Nuts ............................................................
................................................................................................................... 15 - 18 Nm (11 - 13 ft.
lbs.) Valve Stopper
.............................................................................................................................................................
2.0 - 3.4 Nm (17.4 - 30.4 inch lbs.)
Page 3301
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4479
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 7636
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3771
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9158
Description (Part 1 Of 2)
Page 5891
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1028
Fuel Temperature Sensor: Connector Views
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 3331
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7623
3. Adjust stopper bolt if necessary.
Standard length "L1" (2WD):
20 mm (0.79 inch) (Length before cap is mounted.)
Standard length "L2" (4WD):
26.5 mm (1.043 inch) (Length before cap is mounted.)
Page 2862
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4420
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Locations
Air Bag Deactivation Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
Passenger Air Bag Deactivation Switch
SRS Component Parts Location
Page 5318
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 4432
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5255
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 1019
Fuel Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3577
Description (Part 1 Of 2)
Page 7464
Fuse: Diagrams
Fuse
a. If fuse is blown, be sure to eliminate cause of problem before installing new fuse. b. Use fuse of
specified rating. Never use fuse of more than specified rating. c. Do not partially install fuse; always
insert it into fuse holder properly. d. Remove fuse for "ELECTRICAL PARTS (BAT)" if vehicle is not
used for a long period of time.
Page 3927
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2865
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3751
Page 2653
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6051
Ground Distribution
Page 6484
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7359
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3672
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5560
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8945
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9116
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 4183
Ground Distribution
Page 5783
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4750
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9038
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 5787
Type Of Standardized Relays (Part 2 Of 2)
Page 2946
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4706
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2932
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9127
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1664
^ The graph on the following page shows that PAG oil left open to air (e.g. in an unsealed
container) will absorb 2% moisture (by weight) in 120 hours (5 days).
^ PAG containers, and any A/C component which contains PAG oil (such as the compressor)
should remain tightly capped and sealed until ready for use.
^ If you believe that a container of PAG oil may not have been adequately re-sealed after opening,
dispose of the oil properly and use oil from a new sealed container.
^ When installing or servicing an A/C system, the refrigerant tube and hose connections should be
sealed (all connections made and tightened to specification) without delay.
^ The above precautions will keep the absorption of moisture into the system to a minimum. Using
moisture saturated PAG oil in R-134a systems may lead to the formation of acids and related
system damage or failure.
^ Do not allow refrigerant oil (Nissan A/C System Oil Type S) to contact styrofoam, as the lubricant
will damage this material.
Page 6583
Type Of Standardized Relays (Part 2 Of 2)
Page 461
Ground Distribution
Page 2413
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1164
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5354
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 4275
Intake Air Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3855
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1278
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 751
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2674
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 2470
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4512
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2123
Fuel Pressure: Testing and Inspection
NOTE:
- When reconnecting fuel line, always use new clamps.
- Make sure that clamp screw does not contact adjacent parts.
- Use a torque driver to tighten clamps.
- Use Pressure Gauge to check fuel pressure.
- Do not perform fuel pressure check with system operating. Fuel pressure gauge may indicate
false readings.
1. Release fuel pressure to zero. 2. Disconnect fuel hose between fuel filter and fuel tube (engine
side).
3. Install pressure gauge between fuel filter and fuel tube. 4. Start engine and check for fuel
leakage.
5. Read the indication of fuel pressure gauge.
At idling:
With vacuum hose connected
Approximately 235 kPa (2.4 kg/cm.sq, 34 psi)
With vacuum hose disconnected
Approximately 294 kPa (3.0 kg/cm.sq, 43 psi)
If results are unsatisfactory, perform "Fuel Pressure Regulator Check".
Page 4773
Vehicle Speed Sensor: Locations
Component Parts And Harness Connector Location
Audio - Speaker Noise, Cellular Phone Interference
Cellular Phone: Customer Interest Audio - Speaker Noise, Cellular Phone Interference
Classification: EL99-005
Reference: NTB99-017
Date: April 1, 1999
NISSAN SPEAKER NOISE DUE TO CELLULAR PHONE INTERFERENCE
APPLIED VEHICLES: All Nissan Vehicles
SERVICE INFORMATION Cellular phone charging may cause a popping or crackling noise in the
audio speakers of Nissan vehicles. If this condition exists, it is most likely to occur when the
customer's cellular phone is turned off, plugged into the 12 volt cigarette lighter socket nearest the
audio head unit, and placed within one foot of the audio head unit. The condition may occur more
frequently in vehicles with audio systems with amplified speakers. Refer to the appropriate owner's
manual for cautions regarding the use of the cigarette lighter socket as a power source for other
accessories. Use the procedure below to verify that the condition exists as described above and
provide instruction for the customer to reduce the possibility of future cellular phone interference.
SERVICE PROCEDURE Perform the following test procedure to verify the condition exists as
described: 1.
Ask the customer for the cellular phone and charging adapter.
2.
Confirm the cellular phone has been turned off for at least 30 minutes before proceeding.
NOTE:
Do not turn the cellular phone on at any time during the procedure. If the phone has to be turned
from on to off, you will have to wait 30 minutes for the phone to reset to proceed with the test.
3. Plug the phone into the 12 volt cigarette lighter socket nearest the audio head unit.
4.
Turn the ignition to the "ON" position (do not turn the cellular phone on).
5.
Turn the audio unit on.
6.
Place the cellular phone close to the front of the audio head unit.
7.
Listen for a popping or crackling noise from the audio speakers.
8.
If the noise is heard, move the cellular phone back from the audio unit. The noise should be
reduced as the cellular phone is moved further away from the audio unit.
9.
If the condition is confirmed through the above procedure, advise the customer to keep the cellular
phone at least one foot away from the audio head unit to reduce the possibility of future cellular
phone interference.
Page 819
Ground Distribution
Page 9567
EL-TAIL/L-02 Parking, License, And Tail Lamps Wiring Diagram (Part 2 Of 2)
Circuit Diagrams
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Page 2472
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5526
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3723
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3383
Page 9375
Type Of Standardized Relays (Part 2 Of 2)
Page 8948
Audible Warning Device: Connector Views
Warning Chime (Part 1 Of 2)
Models With Power Door Locks Circuit Connectors
Warning Chime (Part 2 Of 2)
Models Without Power Door Locks Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 693
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3847
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 6607
^ before removing the extension adapter hose from the cooler Outlet hose,
^ turn the can over and spray only propellant for a few seconds to avoid fluid spilling back out of the
cooler hose.
5. Tie a common white, basket-type coffee filter to the end of the cooler Inlet hose (see Figure 10).
6. Insert the tip of an air gun into the end of the cooler Outlet hose (see Figure 11).
7. Wrap a shop rag around the air gun tip and end of the cooler Outlet hose (see Figure 11).
8. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the cooler Outlet hose to
force any remaining cleaner or fluid into the coffee filter (see Figure 11).
9. Remove the coffee filter from the end of the cooler Inlet hose.
10. Proceed with Inspection Procedure.
Inspection Procedure
Page 7689
Pitman Arm: Service and Repair
STEERING LINKAGE
REMOVAL AND INSTALLATION
Refer to the illustrations when servicing.
1. Remove pitman arm with Tool.
Page 7657
Type Of Standardized Relays (Part 2 Of 2)
Page 2943
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 104
Page 373
Optional Splice
Example Diagrams
Body - Warnings for Aftermarket Rust Proofing
Seat Belt Retractor: All Technical Service Bulletins Body - Warnings for Aftermarket Rust Proofing
Classification: BF88-005
Reference: TS88-015
Date: February 15, 1988
CAUTIONS FOR AFTERMARKET RUST PROOFING APPLICATION APPLIED VEHICLE(S): All
Nissan Models
SERVICE INFORMATION The National Highway Traffic Safety Administration has conducted an
investigation into potential failure of the front safety belt systems of certain vehicles due to the
unintentional application of rust-proofing material to the belt retractors in the "B" pillar area. Their
information suggests that the movement of the pendulum inside the belt retractor mechanism can
be restricted if rust-proofing material is inadvertently applied in the pendulum area. Restricting the
pendulum movement can result in the belts failing to protect occupants in an accident. Nissan's
current models have extensive anti-corrosion treatment applied at the factories and we do not
endorse "rust-proofing" at the dealer or aftermarket level. The only instance in which Nissan
recommends rust-proofing be applied is in the case of body panel replacement (Please refer to
Service Bulletin TS82-066, BF82-007 for instructions about rust-proofing replacement body
panels). If additional rust-proofing is applied to Nissan vehicles, DO NOT apply rust-proofing to the
"B" pillar area near the seat belt retractor, or any other location near the seat belt retractors of any
vehicle. Of course, the usual precautions in applying rust-proofing material still apply. For example,
it is important that rust-proofing material not be inadvertently applied to door lock assemblies, drain
holes, the exhaust system or driveshaft. IMPROPER RETRACTOR OPERATION CAUSED BY
THE INSTALLATION OF RUST-PROOFING MATERIAL WILL BE THE RESPONSIBILITY OF
THE INSTALLING AGENCY.
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 4302
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6400
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4259
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3003
Vehicle Speed Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3948
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Brake Hose/Line: Specifications
TIGHTENING SPECIFICATIONS
Brake Hose ..........................................................................................................................................
................................... 15 - 18 Nm (11 - 13 ft. lbs.) Connecting Bolt ...................................................
.................................................................................................................. 17 - 19 Nm (12 - 14 ft. lbs.)
Flare Nut ..............................................................................................................................................
.................................. 15 - 18 Nm (11 - 13 ft. lbs.) Two-Way Connector
.................................................................................................................................................. 5.1 8.8 Nm (45.1 - 78.1 inch lbs.) Three-Way Connector:
Front (Near Booster)
............................................................................................................................................. 5.1 - 8.8
Nm (45.1 - 78.1 inch lbs.) Rear (Near Differential
................................................................................................................................................... 8 - 11
Nm (69 - 95 inch lbs.)
Page 1451
Fuel Pressure: Testing and Inspection
NOTE:
- When reconnecting fuel line, always use new clamps.
- Make sure that clamp screw does not contact adjacent parts.
- Use a torque driver to tighten clamps.
- Use Pressure Gauge to check fuel pressure.
- Do not perform fuel pressure check with system operating. Fuel pressure gauge may indicate
false readings.
1. Release fuel pressure to zero. 2. Disconnect fuel hose between fuel filter and fuel tube (engine
side).
3. Install pressure gauge between fuel filter and fuel tube. 4. Start engine and check for fuel
leakage.
5. Read the indication of fuel pressure gauge.
At idling:
With vacuum hose connected
Approximately 235 kPa (2.4 kg/cm.sq, 34 psi)
With vacuum hose disconnected
Approximately 294 kPa (3.0 kg/cm.sq, 43 psi)
If results are unsatisfactory, perform "Fuel Pressure Regulator Check".
Front
Page 1799
Wheels: Specifications
DIMENSIONS
Aluminum Wheel:
Maximum Radial Runout
.............................................................................................................................................................
0.3 mm (0.012 inch) Maximum Lateral Runout
............................................................................................................................................................
0.3 mm (0.012 inch)
Steel Wheel:
14 Inch:
Painted:
Maximum Radial Runout
................................................................................................................................................. 0.5 mm
(0.020 inch) Maximum Lateral Runout
................................................................................................................................................ 0.8 mm
(0.031 inch)
Plated:
Maximum Radial Runout
................................................................................................................................................. 0.6 mm
(0.024 inch) Maximum Lateral Runout
................................................................................................................................................ 0.8 mm
(0.031 inch)
15 Inch:
Maximum Radial Runout
....................................................................................................................................................... 0.8
mm (0.031 inch) Maximum Lateral Runout
...................................................................................................................................................... 0.8
mm (0.031 inch)
NOTE: Runout average = (Outside runout value + inside runout value) x 0.5
Page 2835
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 4782
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2844
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8597
Radio/Stereo: Description and Operation
BASE AUDIO SYSTEM
Power is supplied at all times:
^ through 10 A fuse (No. [41], located in the fuse and fusible link box)
^ to radio terminal (6).
With the ignition switch in the ACC or ON position, power is supplied:
^ through 10 A fuse [No. [18], located in the fuse block (J/B)]
^ to radio terminal (10).
Ground is supplied through the case of the radio. When the radio power knob is pushed to the ON
position, radio signals are supplied:
^ through radio terminals (13), (14), (15), and (16)
^ to the door speakers.
PREMIUM AUDIO SYSTEM
Power is supplied at all times:
^ through 10 A fuse (No. [41], located in the fuse and fusible link box)
^ to radio terminal (6).
With the ignition switch in the ACC or ON position, power is supplied:
^ through 10 A fuse [No. [18], located in the fuse block (J/B)]
^ to radio terminal (10).
Ground is supplied through the case of the radio. When the radio power knob is pushed to the ON
position, radio signals are supplied:
^ through radio terminals (1), (2), (3), (4), (13), (14), (15) and (16)
^ to the door speakers or tweeters.
Page 4453
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3846
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5616
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Adjustments
Shift Cable: Adjustments
Move the selector lever from the "P" position to "1" position. You should be able to feel the detents
in each position. If the detents cannot be felt, the linkage needs adjustment. 1. Place selector lever
in "P" position. 2. Loosen control cable lock nut and place manual shaft in "P" position. 3. Push
control cable in the direction of the arrow shown in the illustration by specified force.
Specified force: 19.6 N (2.0 kg, 4.4 1b)
4. Return control cable in the opposite direction of the arrow for 1.0 mm (0.039 inch). 5. Tighten
control cable lock nut. 6. Move selector lever from "P" to "1" position again. Make sure that selector
lever moves smoothly. 7. Apply grease to contacting areas of selector lever and control cable.
Install any part removed.
- Make sure that the starter operates when the selector lever is placed in the "N" or "P" position.
- Make sure that the transmission is locked properly when the selector lever is placed in the "P"
position.
Locations
Brake Warning Indicator: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 9117
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 1536
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 6637
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 294
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3377
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 7060
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6123
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 704
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Service and Repair
Air Bag(s) Arming and Disarming: Service and Repair
DISARMING AIR BAGS
1. Turn the ignition switch OFF, disconnect both battery cables and wait for at least 3 minutes. 2.
Disconnect Air Bag Module connector.
CAUTION: For approximately 3 minutes after the cables are removed, it is still possible for the air
bag to deploy. Therefore, do not work on any air bag system connectors or wires until at least 3
minutes have passed.
CAUTION: Do not use electrical test equipment on any circuit related to the SRS unless instructed.
SRS wiring harnesses are covered with yellow insulation either just before the harness connectors
or on the complete harness, for easy identification.
ARMING AIR BAGS
1. Connect Air Bag Module connector. 2. Connect both battery cables. 3. Conduct Self-diagnosis to
ensure entire SRS operates properly. Refer to Testing and Inspection / Self-Diagnostic Procedures.
Page 2691
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4625
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2759
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2182
Spark Plug: Application and ID
Spark Plug ID
Standard ..............................................................................................................................................
.............................................................. FR5AP-10 Cold ....................................................................
..............................................................................................................................................
FR6AP-10 Optional .............................................................................................................................
............................................................................... FR7AP-10
Page 3221
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5509
Fuel Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION Tank fuel temperature sensor
Check resistance by heating with hot water as shown in the figure or a heat gun. If NG, replace
tank fuel temperature sensor.
Page 3983
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4552
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 940
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Specifications
Page 2764
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1226
Air Bag Deactivation Switch: Service and Repair Passenger Air Bag Deactivation Switch Lock
Cylinder
Passenger Air Bag Deactivation Switch Lock Cylinder
REMOVAL
Passenger Air Bag Module Deactivation Switch Lock Cylinder
CAUTION: Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and
wait for at least 3 minutes.
1. Detach instrument stay cover lower center from instrument panel. 2. Disconnect passenger air
bag deactivation switch harness connector and cigarette lighter harness connector 3. Remove
instrument stay cover lower center. 4. Remove four screws and housing from instrument stay cover
lower center. 5. Remove clip from bottom of housing. 6. Remove passenger air bag deactivation
switch lock cylinder from front of housing.
INSTALLATION
NOTE: Be sure that passenger air bag deactivation switch and lock cylinder are in the same
position as during removal for proper engagement.
To install, reverse removal procedure.
After replacement, perform Self-diagnosis for SRS. Refer to "SRS Operation Check".
Page 678
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the front heated oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 9346
PARTS INFORMATION
CLAIMS INFORMATION
Page 159
Page 3521
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2363
Page 4653
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6603
2. Identify which hose is the Inlet and which hose is the Outlet to the oil cooler (refer to Charts A
and B).
3. Disconnect the oil cooler Inlet and Outlet rubber hoses from the steel cooler tubes (see Figure
3).
^ For Frontier (D22) w/bypass valve, remove the oil cooler inlet and outlet rubber hoses from the
bypass valve fittings (see Figure 6 shown)
NOTE:
If rubber material from a cooler hose remains on the steel tube or fitting, replace the rubber hose.
4. Allow any transmission fluid that remains in the cooler hoses to drain into the oil pan.
5. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-A0006) into the cooler Outlet hose (see Figure 4).
Page 1263
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9370
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 515
ECCS Component Parts Location
ECCS Component Parts Location
Locations
Page 6197
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2372
8. Select the detected VI from the list. (See Figure 1.)
9. Select Connect. (See Figure 1.)
10. Wait for the "Checking the firmware version" message to clear.
11. Select ECM reprogramming / Programming (see Figure 2).
12. Select Select.
Page 2274
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2282
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2506
Absolute Pressure Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1409
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
Page 6155
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3433
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Instruments - Fuel Gauge Inaccurate
Fuel Gauge: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 3412
Spark Plug: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4992
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 5885
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Emissions System - MIL ON/DTC's Stored (EVAP)
Canister Purge Control Valve: All Technical Service Bulletins Emissions System - MIL ON/DTC's
Stored (EVAP)
Classification: EC98-007B
Reference: NTB98-058B
Date: August 7, 2001
MIL "ON" WITH EVAP SYSTEM DTCs STORED DUE TO LAUNCHING A WATERCRAFT
ATTENTION:
This bulletin amends NTB98-058A. Applied Vehicle information has been expanded and Parts
Information has been revised. Please discard all paper copies of NTB98-058A.
APPLIED VEHICLES: 1996-1997 Truck (D21) 1998-2001 Frontier (D22)
SERVICE INFORMATION
If an applied vehicle is used to launch watercraft and exhibits the following symptoms:
1. The EVAP canister is found to have water in it and
2. It has one or more of the following DTC codes stored in Self Diagnosis:
^ P0440 (EVAP-small leak)
^ P1440 (EVAP-small leak) D22 only
^ P0446 (EVAP canister vent control valve)
^ P1446 (EVAP canister vent control valve-stuck closed) D22 only
^ P1448 (EVAP canister vent control valve-stuck open) D22 only
^ P0450 (EVAP pressure sensor)
^ P0443 (EVAP purge control valve & solenoid valve)
^ P1445 (EVAP purge volume control valve) D21 only
^ P1444 (EVAP purge volume control solenoid valve) D22 only
Use the Service Procedure provided in this bulletin to replace the EVAP canister and install the
replacement EVAP breather tube kit to prevent water/mud/dirt entry into the EVAP system.
SERVICE PROCEDURE
1. Connect CONSULT-II.
2. From the Engine menu, select Self Diag Results.
3. Touch PRINT. Then select FF Data and touch PRINT again.
4. Use the appropriate service manual to resolve the stored DTC.
5. To determine if there is damage to the EVAP system, proceed to Removal and Inspection
Testing.
6. Then go to Installation of the Breather Tube Kit and Installation of the EVAP system.
Removal and Inspection Testing
Page 2945
Type Of Standardized Relays (Part 2 Of 2)
Page 8807
CLAIMS INFORMATION
Repairs of environmental contamination discovered and reported at the time of vehicle delivery to
the dealership can be claimed utilizing procedures outlined in Warranty Bulletin WB92-003 dated
January 24, 1992.
Outline of Procedures
A. Wash with detergent such as (Nissan P/N 999MP-A3100), then dry.
B. Identify the type of contamination using fluorescent lights and magnification. If paint over-spray
is found, a specialized repair process is needed.
If paint contamination other than paint over spray is suspected, test a 2' x 2' section on each
affected panel as follows to determine the severity of damage and repair effort needed:
C. Re-wash several times to remove detergent and water soluble spots. If spots are removed,
wash affected panels.
D. Clean with Nissan Bug and Tar remover for solvent soluble spots. If spots are removed, clean
affected panels.
E. To remove iron particles and acid rain residue, use Finish Kare # 1119 followed by # 883 (apply
# 883 several times if necessary) and always neutralize with # 118SC.
Page 2447
Optional Splice
Example Diagrams
Page 5184
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5583
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Idle Air Control Valve (IACV)-Auxiliary Air Control (AAC) Valve
Page 897
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4487
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Testing and Inspection
Turn Signal Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 3478
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5097
Optional Splice
Example Diagrams
Page 4266
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2196
2. Apply a continuous bead of liquid gasket to mating surface of water pump.
- Use Genuine RTV Silicone Sealant Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Page 6129
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Testing and Inspection
Oil Pressure Warning Lamp/Indicator: Testing and Inspection
For further information regarding this component and the system that it is a part of, please refer to
Sensors and Switches - Engine.
Page 3311
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Front
Suspension Strut / Shock Absorber: Specifications Front
TIGHTENING SPECIFICATIONS
Top Nut ................................................................................................................................................
.................................. 16 - 22 Nm (12 - 16 ft. lbs.) Bottom Bolt ...........................................................
........................................................................................................... 118 - 147 Nm (87 - 108 ft. lbs.)
Page 6473
Optional Splice
Example Diagrams
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 9239
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7816
REMOVAL
Page 5145
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2033
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 7772
Steering Gear: Application and ID
Model ...................................................................................................................................................
...................................................................... PB59K
Page 2287
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 738
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6055
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5949
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 2717
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3897
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 7580
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
Page 2220
Description (Part 1 Of 2)
Page 3123
Type Of Standardized Relays (Part 2 Of 2)
Page 38
Passenger Compartment (Part 1 Of 2)
Page 5082
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2237
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Locations
Horn Relay: Locations
Engine Compartment
Engine Compartment
Page 8795
^ An industrial fallout remover (i.e. oxalic acid) such as Zep Industrial Fallout Remover(TM)
X-20472 by Zep Manufacturing Company or equivalent; or
^ A chemical neutralization system such as ValuGard(TM) 3-Step Neutralization/Decontamination
System by Automotive International, Inc., or equivalent.
WARNING:
Read and follow the manufacturer's procedure before using.
C. Heavy Damage (deep into the clear and/or color coat)
This step will require wet sanding and/or repainting. Contact your local paint refinish supplier for
recommended procedures such as BASF Corporation Rail Dust repair procedure,
Sherwin-Williams Ultra 7000 Basecoat System or equivalent.
CAUTION:
Only an experienced paint technician, who is familiar with proper refinishing techniques should
perform the above repair.
For more information on identifying and diagnosing iron particles and other paint issues, refer to the
Nissan/Infiniti Paint Incident Identification Manual, P/N 5PII00. Call DYMENT: 1-800-247-5321 for a
copy of the Nissan/Infiniti Paint Incident Identification Manual, P/N 5PII00.
CLAIMS INFORMATION
Section 1 of the Assurance Products Resource Manual (under "Environmental Damage") states,
Since Environmental Damage is generally excluded from the Nissan's New Vehicle Limited
Warranty, repairs for such damage do not generally qualify for reimbursement as warranty
expense. However, if damage is noted at the time of delivery, the dealer may submit a
transportation claim. Upon vehicle delivery, note environmental damage on the carrier's delivery
receipt. The carrier's delivery receipt must be signed by both the carrier driver and dealership
personnel.
Environmental damage must be noted at the time of vehicle delivery. The Claims Call Center,
Transportation Department, must also be contacted for pre-approval of repairs on all environmental
damage claims. Failure to comply with either of the above will result in transportation claim denial
If environmental damage occurs while the vehicle is in the customer's possession, like any
non-warranty repair, it may be considered as a goodwill matter on strictly a case-by-case basis. If
you have such a repair which you believe may merit such a consideration, but it exceeds the
dealer's self-authorization authority, you may contact the Claims Call Center (1-800-258-7008).
Page 3947
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4595
Vehicle Speed Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 2395
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5508
Fuel Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The tank fuel temperature sensor is used to detect the fuel temperature inside the fuel tank. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the fuel
temperature input. The sensor uses a thermistor which is sensitive to the change in temperature.
The electrical resistance of the thermistor decreases as temperature increases.
Page 8573
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7329
Battery: Service Precautions Sulphation
Sulphation
A battery will be completely discharged if it is left unattended for a long time and the specific gravity
becomes less than 1.100. This may result in sulphation on the cell plates. To determine if a battery
has been "sulphated", note its voltage and current when charging it. As shown in the diagram, less
current and higher voltage are observed in the initial stage of charging sulphated batteries. A
sulphated battery may sometimes be brought back into service by means of a long, slow charge,
12 hours or more. followed by a battery capacity test.
Page 2934
Ground Distribution
Page 2398
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4333
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7581
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 2113
7. Remove the crankshaft pulley.
8. Remove the oil pan (Refer to "Removal" under "Oil Pan" in the Service Manual).
9. Remove the oil pump and distributor drive shaft, then the oil pickup strainer.
10. Remove the front cover.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
11. Remove the following parts:
^ Lower timing chain tensioner (push tensioner piston in and insert a suitable pin into the hole to
retain the tensioner piston in the tensioner body).
^ Chain tension arm.
^ Lower timing chain guide.
12. Remove the upper timing chain (refer to "Removal of Upper Timing Chain" in this bulletin).
13. Wipe off the links of the timing chain next to the timing marks on the sprockets. Put paint marks
on the timing chain, matching them with the timing marks on the crankshaft sprocket and idler
sprocket (see Figure 3).
14. Remove the lower timing chain and sprocket.
Installation of Lower Timing Chain
1. Install the crankshaft sprocket, making sure the mating marks face the front of the engine.
2. Install the idler sprocket and lower timing chain using the mating marks and the paint marks
made during the removal process.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
3. Install chain guide and chain tension arm.
4. Install lower chain tensioner and remove the pin securing the piston into the tensioner body.
5. Front cover installation:
a. Using a scraper or other suitable tool remove all traces of liquid gasket from the cylinder block
and front cover mating surfaces.
Page 7577
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
Page 1331
Wiper Switch: Service and Repair
Combination Switch/Replacement
- Each switch can be replaced without removing combination switch base.
Combination Switch/Replacement
COMBINATION SWITCH BASE REMOVAL
- To remove combination switch base, remove base attaching screws.
Combination Switch/Replacement
- Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 1514
Compression Check: Testing and Inspection
MEASUREMENT OF COMPRESSION PRESSURE
1. Warm up engine. 2. Turn ignition switch off. 3. Release fuel pressure. 4. Remove all spark plugs
5. Disconnect distributor center cable
6. Attach a compression tester to No 1 cylinder 7. Depress accelerator pedal fully to keep throttle
valve wide open 8. Crank engine and record highest gauge indication. 9. Repeat the measurement
on each cylinder as shown above.
- Always use a fully-charged battery to obtain specified engine speed.
Compression pressure: kPa (kg/cm2, psi) /rpm
Standard: 1,226 (12.5, 178) /300 Minimum: 1,030 (10.5, 149) /300 Difference limit between
cylinders: 98 (1.0,14) /300
10. If compression in one or more cylinders is low:
a. Pour a small amount of engine oil into cylinders through spark plug holes. b. Retest
compression.
- If adding oil improves cylinder compression, piston rings may be worn or damaged. If so, replace
piston rings after checking piston.
- If pressure stays low, a valve may be sticking or seating improperly. Inspect and repair valve and
valve seat. If valve or valve seat is damaged excessively, replace it.
- If compression stays low in two cylinders that are next to each other: a. The cylinder head gasket
may be leaking, or b. Both cylinders may have valve component damage. Inspect and repair as
necessary.
Testing and Inspection
Blower Motor Switch: Testing and Inspection
Check continuity between terminals at each position.
Page 2234
Ground Distribution
Page 9351
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5109
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1392
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Page 7579
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
Page 629
13. Use compressed air to remove any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
14. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
15. Tilt the manifold/catalyst/front tube so that the metal debris falls out of the part.
16. Apply compressed air through the boss to blow out any remaining debris.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
17. Install the new sensor as described in the applicable Electronic Service Manual (ESM).
Page 8359
4. Pull the wire back and forth across the surface of the "D" ring, sliding it over all areas of the "D"
ring where it contacts the seat belt (see Figure 7) until all residue is removed.
NOTE:
It is very important to remove all residue build-up from the "D" ring before the following steps of the
procedure are completed. Failure to remove all residue build up will result in poor adhesion of the
special fluorine resin tape.
5. Peel off the top (smaller) backing sheet from one of the two fluorine resin tape sections provided
in the kit (see Figure 8).
6. Place the fluorine resin tape (adhesive side toward you) against the seat belt as shown in Figure
9A.
NOTE:
Page 3077
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: Customer Interest MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 1732
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4921
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Testing and Inspection
Fog/Driving Lamp Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 3650
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3578
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8947
Type Of Standardized Relays (Part 2 Of 2)
Page 2765
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 772
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 211
Type Of Standardized Relays (Part 2 Of 2)
Page 8569
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 8381
^ Find the "witness mark" (the old hole) for the old button, using the information contained in Figure
1 and Table 1.
Page 6705
Workflow
Page 5909
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 3137
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2763
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3706
20. The screen in Figure 9 is displayed during data transfer.
CAUTION: During data transfer:
^ DO NOT disturb the VI, DDL, or USB connections.
^ DO NOT try to start the engine or turn the ignition OFF.
^ The engine fans may turn on. This is normal.
NOTE:
^ If "Transfer To VI" reaches 100%, and "Transfer To ECU" does not start, or
^ The Error in Figure 9A displays.
a. DO NOT replace the ECM. The ECM is not damaged.
b. Check / make sure the battery voltage is above 12 V and all vehicle electrical loads are turned
OFF (see step 3 and 4).
c. Select Cancel Data Transmission, then click on the "Home" icon (upper left corner of C-III
screen) and re-start from the beginning (step 1).
Part 2
Page 8211
which will result in contamination, and damage to recovery/recycle equipment.
^ Use equipment designed to meet Society of Automotive engineers (SAE) standards, which
specify R-134a service equipment fitting size (1/2" - 16 ACME), and service hose identification
(black stripe on hose).
^ Adapters to convert from one size fitting to the other must never be used; refrigerant/lubricant
contamination will occur and system failure may result.
^ The use of incorrect equipment will result in refrigerant and/or lubricant contamination, which may
cause A/C system or equipment failure.
^ ACR(4) machine will perform all required service functions (recovery, evacuation, recycle,
recharge).
^ High volume A/C service facilities may benefit from "component" A/C service equipment (vacuum
pump, weight scale, manifold gauge set) to supplement the ACR(4).
Comments regarding recovery/recycling equipment:
^ Be certain to follow the manufacturer's instructions for machine operation and machine
maintenance.
^ Never introduce any refrigerant other than that specified into the machine.
^ Only R-134a containers with a 1/2"-16 ACME can be used to add R-134a to the ACR4
recovery/recycle machine.
^ Periodic maintenance of this equipment is required; follow the manufacturer's recommendations
as described in the equipment instruction manual.
Page 9159
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3546
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6378
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4101
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9290
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4258
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5931
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 9443
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1218
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 4074
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Locations
Circuit Breaker: Locations
Passenger Compartment (Part 1 Of 2)
Page 5238
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4728
Description (Part 1 Of 2)
Page 6281
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9415
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8052
Air Door: Testing and Inspection Intake Door
SYMPTOM: Intake door position does not change.
INTAKE DOOR OPERATION CHECK
1. Start engine. 2. Slide fan control switch to max speed. 3. Check recirculation.
a. Slide recirculation control lever to the REC position. b. Listen for intake door position change
(you should hear blower sound change slightly).
Page 340
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 3111
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6574
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 69
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Crash Zone Sensor
SRS Component Parts Location
Page 449
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3838
Optional Splice
Example Diagrams
Page 764
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Page 6569
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1189
Description (Part 1 Of 2)
Specifications
Fuel Pressure: Specifications PRESSURE
PRESSURE
Fuel pressure with vacuum hose connected 235 kpa (34 psi)
Fuel pressure with vacuum hose disconnected 294 kpa (43 psi)
Page 283
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7356
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2603
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
A/C - Idler Pulley Whine Noise at 3000 rpm
Drive Belt: All Technical Service Bulletins A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 6958
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4807
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 8001
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5283
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 8042
Wheel Fastener: Specifications Wheel Fastener Tightening Sequence
Lug Nut Torque Patterns
IMPORTANT
Check all parts, including rims, lug studs, lug nuts, and mating surfaces of hubs and tire rims for
rust, damage, or dirt. Clean mating surfaces with a wire brush to remove any foreign material.
Replace any damaged parts as needed. Careless installation of tire/rim assemblies in a vehicle is a
major cause of tire installation problems. Proper installation, including fastener torque, is essential
to economical, safe and trouble free service. Use only the proper sizes and types of fasteners for
safe and proper service. Tighten the fasteners a quarter turn at a time using the tightening
sequence diagram as a guide. This is very important to prevent misalignment of the wheel.
Continue tightening the fasteners in sequence until the fasteners are tightened to the proper torque
(See WHEEL FASTENER TORQUE).
CAUTION: Improper torque or tightening sequence can cause distortion, fatigue cracks, or
alignment problems. After driving the vehicle for a short distance, recheck the wheel fastener
torque. Parts will usually seat naturally, reducing the torque on the fasteners. Retorque all
fasteners to the proper torque.
Page 3789
Idle Speed/Throttle Actuator - Electronic: Electrical Diagrams
EC-AAC/V-01 Idle Air Control Valve (IACV) - Auxiliary Air Control (AAC) Valve (DTC: P0505)
WIRING DIAGRAM
Page 866
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 2393
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Specifications
Idler Arm: Specifications
TIGHTENING SPECIFICATIONS
Mounting Nut:
At Relay Rod .......................................................................................................................................
............................. 54 - 98 Nm (40 - 72 ft. lbs.) At Frame Pivot ...........................................................
...................................................................................................... 54 - 69 Nm (40 - 51 ft. lbs.)
Idler Mounting To Frame
....................................................................................................................................................... 78
- 98 Nm (58 - 72 ft. lbs.)
Locations
Safing Sensor: Locations
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit.
Page 2407
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2986
Description (Part 1 Of 2)
Page 4999
DRIVE BELT / PULLEY NOISE DIAGNOSIS FLOW CHART
Page 2222
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Locations
Safing Sensor: Locations
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit.
Page 9496
Fog/Driving Lamp Switch: Service and Repair
Combination Switch/Replacement
^ Each switch can be replaced without removing combination switch base.
Combination Switch/Replacement
^ To remove combination switch base, remove base attaching screws.
Combination Switch/Replacement
^ Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 3252
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6915
Fluid - M/T: Fluid Type Specifications
Specified type ......................................................................................................................................
.................................... API GL-4 SAE 75W-90 only
Page 7940
Page 4050
Description (Part 1 Of 2)
Page 3660
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1692
Comments regarding tubes and hoses:
^ Some R-134a tubes and hoses have reversed male/female connections to prevent
interchangeability with R-12 components.
R134A Service Tools & Equipment
^ R-12 and R-134a require separate and non-interchangeable sets of recovery, recycle, and
recharge equipment, because the refrigerants and lubricants are not compatible and cannot be
mixed even in the smallest amounts.
^ DO NOT attempt to use one set of equipment for both R-12 and R-134a, as all equipment
contains residual amounts of refrigerant and/or lubricant,
Page 4279
Description (Part 1 Of 2)
Page 9295
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5066
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2464
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2990
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1851
2. Remove brake caliper assembly without disconnecting hydraulic line.
CAUTION: Be careful not to depress brake pedal, or piston will pop out.
- Make sure brake hose is not twisted.
3. Remove lock washer. (4WD)
4. Remove wheel bearing lock nut.
2WD: With suitable tool 4WD: With Tool
5. Remove wheel hub and wheel bearing.
CAUTION: Be careful not to drop outer bearing.
6. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
DISASSEMBLY
Page 4597
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4226
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7916
Page 7660
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 9592
1. Remove the door finisher assembly.
2. Remove the door speaker (front door).
3. Remove the frame assembly (rear door).
4. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
5. Remove the glass mounting bolts.
6. Raise up the door glass and hold with a suction lifter.
7. Remove the mounting bolts, and remove the module assembly (front door).
8. Remove the door regulator assembly.
9. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-C: DOOR SASHLESS + SEALING SCREEN TYPE (FR/RR)
Specifications
Tie Rod: Specifications
DIMENSIONS
Standard Length: 297.6 mm (11.72 inch)
SERVICE SPECIFICATIONS
Axial End Play "C":
Ball Joint: 0 mm (0 inch) Swivel Joint: 0 mm (0 inch)
Rotating Torque "B":
Ball Joint: 0.5 - 4.9 Nm (4.3 - 43.4 inch lbs.) Swivel Joint: 1.0 - 5.9 Nm (8.7 - 52.1 inch lbs.)
Swinging Force "A" [1]:
Ball Joint: 15.7 - 147.1 N (3.5 - 33.1 lbs.)
TIGHTENING SPECIFICATIONS
Castle Nuts: 54 - 98 Nm (40 - 72 ft. lbs.) Lock Nuts: 78 - 98 Nm (58 - 72 ft. lbs.)
[1]: Measure point at the cotter pin hole.
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6403
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9303
MODELS WITHOUT POWER DOOR LOCKS
EL-ROOM/L-03 Interior Room Lamp (Part 3 Of 3)
Circuit Diagrams
Interior Room Lamp (Part 3 Of 3)
Interior Room Lamp Circuit Connectors
Page 6316
Page 4784
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5178
Description (Part 1 Of 2)
Page 6520
Rental Vehicle Expense Assistance:
If the customer is unable to wait for the vehicle to be repaired or if the dealer does not have the
replacement A/T shifter assembly in inventory, rental vehicle assistance may be submitted using
expense code 502. The maximum dollar reimbursement is $30 per day for up to two (2) days
($60.00 total). Replacement parts must be ordered through the Customer Care process.
Service Procedure
1. Record the radio presets.
2. Disconnect the negative battery cable.
3. Remove the steering column upper and lower covers by removing the (5) screws from the
underside and the garnish around the key switch. Carefully snap apart the covers and lift them out.
4. Remove the screw located above the hood release lever and the screw located under the
parking brake lever. Carefully unsnap the panel underneath the instrument cluster and remove the
driver's side lower instrument panel by lifting and pulling it forward (See Figure 2).
5. Remove the driver's side lower knee protector bar by removing the (2) 6mm bolts and then
removing the bar (see Figure 3).
Page 5149
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1167
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1661
Technical Service Bulletin # 92-001 Date: 920101
A/C - System Changes As Result of R-134A Refrigerant
Classification: HA92-OO1
Reference: NTB92-OO1
Date: January 1992
A/C SYSTEM CHANGES FOR R-134A REFRIGERANT
(ALL MODELS)
APPLIED VEHICLE(S): All Models
Service Information
Introduction
Due to its harmful effect on the ozone layer, R-12 is being phased out and replaced by R-134a,
which does not harm the ozone layer. While the R-134a A/C system is very similar to an R-12 A/C
system, the differences in the refrigerant, lubricants, and service equipment are important.
Nissan A/C systems will change from R-12 to R-134a at the time of new vehicle (full model change)
introduction, or in some cases by model year update to an existing model line.
This bulletin describes all of the general differences between the R-12 and R-134a systems. For
details of an R-134a system for a specific model, refer to that model's service manual or new
product information.
Refrigerant Handling Precautions
^ R-12 refrigerant and R-134a refrigerant must never be mixed, even in the smallest amounts, as
they are incompatible with each other. If the refrigerants are mixed, compressor failure is likely to
occur.
^ Use only specified lubricant for the R-134a A/C system and R-134a components. If lubricants
other than those specified are used, compressor failure is likely to occur.
^ The specified R-134a lubricant absorbs moisture from the atmosphere at a rapid rate, therefore
the following handling precautions must be observed:
^ When removing refrigerant components from a vehicle, immediately cap (seal) the component to
minimize the entry of moisture from the atmosphere.
^ When installing refrigerant components to a vehicle, do not remove the caps (unseal) until just
before connecting the components. Also, complete the connection of all refrigerant tubes and
hoses without delay to minimize the entry of moisture into the system.
^ Use the specified lubricant from a sealed container only. Containers must be re-sealed
immediately after dispensing the lubricant. Lubricant in containers which are not properly sealed
will become moisture saturated. Such lubricant is no longer suitable for use and should be properly
disposed.
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose and
throat. Use only approved service equipment meeting SAE standards to discharge R-134a
Systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service.
^ Always wear eye and hand protection (goggles and gloves) when working with any refrigerant or
air conditioning system.
^ Do not store or heat refrigerant containers above 125° (52°C).
^ Do not heat a refrigerant container with an open flame; if container warming is required, place the
bottom of the container in a pail of warm water.
^ Do not intentionally drop, puncture, or incinerate refrigerant containers.
^ Keep refrigerant away from open flames: hazardous gas will be produced if refrigerant burns.
^ Refrigerant will displace oxygen, therefore be certain to work in well ventilated areas to prevent
suffocation.
Page 8577
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1065
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Page 9193
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 987
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3139
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 487
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Electrical Component Inspection
Thermal Limiting Fuse: Testing and Inspection Electrical Component Inspection
If NG, replace thermal protector.
Page 7141
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Page 1571
1. Visually inspect the metal tube portion of the A/C low hose between the compressor flange and
the rubber hose for cracks or signs of leakage such as traces of oil or dirt deposits (see Figure 1).
NOTE:
Use a mirror and flashlight (as needed) to view the underside of the hose end.
Low Hose Leak Detector Inspection
1. Use an approved electronic leak detector (Kent Moore model # J39400 or # J41995) to check
the A/C low hose for leaks. Refer to pages HA-48 through HA-50 of the 1998 Frontier Service
Manual for the leak check procedure.
NOTE:
Make sure the electronic leak detector is properly calibrated and that the probe tip filter is clean
before performing the leak check. Refer to the leak detector owner's manual to calibrate and/or
change the probe tip filter as needed.
A/C Low Hose Installation
1. Use appropriate equipment to discharge and recover all remaining refrigerant from the vehicle's
A/C system. Refer to pages HA-51 and HA-52 of the 1998 Nissan Frontier Service manual for the
discharge and recovery procedure.
Page 1042
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5294
Leak Detection Sensor: Description and Operation
COMPONENT DESCRIPTION
The EVAP control system pressure sensor detects pressure in the purge line. The sensor output
voltage to the ECM increases as pressure increases. The EVAP control system pressure sensor is
not used to control the engine system. It is used only for on board diagnosis.
Page 1776
Page 936
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8821
area (2' x 2' or less). Spread the liquid around with the pad before turning the buffer "ON". Use an
overlapping pattern to assure even polishing effort on all areas.
3. Second use a dual action sander with either a 3M foam pad or a Meguiar's foam pad, apply
polishing liquid over the work area (2' x 2' or less). Polish with the same technique as above. Do
not polish dry, wipe off excess material with a clean terry cloth towel.
If build up occurs, cool the surface with clean water and dry with a clean terry cloth towel and clean
the foam pad. Use a slower speed to prevent heating the surface and ground the vehicle to a metal
water pipe to reduce static electricity.
INSPECTION
Gently clean a small section with PPG DX330 Wax and Grease remover or similar wax remover,
using a clean towel to remove any polish/filler. Wipe in one direction to aid in distinguishing
between buffing scratches and towel scratches. Inspect the surface for swirl marks under full
sunlight or with a 500 watt halogen work lamp held at an angle about an arms length away.
CAUTION:
If you clean with an alcohol and water cleaning solution it will cause damage to plastic lenses. The
damage is not immediately visible, but develops later
Buffing
Buffing is done with a 8" buffer at 1500-1750 RPM to remove sanding scratches.
1. Clean the surface of all residue before buffing.
2. Apply a buffing liquid and spread it over the work area (2' x 2' or less) with the buffing pad before
turning the buffer "ON". Keep the pad nearly flat and move it slowly but continuously over the area.
Use an overlapping pattern to assure even buffing effort on all areas. Do not buff dry, wipe off
excess material with a clean terry cloth towel.
INSPECTION
Inspect the surface for sanding marks under full sunlight or with a 500 watt halogen work lamp held
at an angle about an arms length away. If necessary, gently clean a small section of the surface
with PPG DX330 Wax and Grease remover or similar wax remover, using a clean towel to remove
any polish/filler. Wipe in one direction to aid in distinguishing between buffing scratches and towel
scratches.
Sanding
1. Soak the sand paper in water with lubricant such as Meguiar's # 0016, for at least 15 minutes
before use. Mask the fenders and doors to reduce cleanup time. Wet sanding with a lubricant
prevents buildup on the paper and consequent gouging of the finish.
2. Sand with 2000 grit sand paper using a sanding pad, never by hand alone. Apply plenty of water
while sanding in one direction only, no more than 12-15 strokes. Do not sand in a circular pattern.
Do not sand over body lines and panel edges. Rinse the paper frequently to prevent gouging.
NOTE:
Wet sanding vehicles with the New Cross Link Clear Coat (NCLC) hard clear coat requires a more
aggressive sanding stroke. Vehicles with a conventional clear coat require a normal sanding
stroke.
3. Rinse with water and squeegee gently. As the squeegee clears the water, inspect for damage.
INSPECTION
Inspect the surface for damage under both strong fluorescent lights and full sunlight (a 500 watt
halogen work lamp held at an angle about an arms length away is necessary on cloudy days). A
smooth dull sanded surface is expected at this time. Bright spots or other irregularities indicate the
damage needs more sanding, up to the 0.5 mil standard.
4. After the damage is removed, measure the paint thickness in several places to determine if less
than 0.5 mil has been removed.
5. If the damage was deeper than 0.5 mil, the surface must be re-clear coated, or re-color coated
on vehicles with no clear coat. Refer to the Warranty Paint and Body Self-Study Course, or the
Warranty Flat Rate Manual for assistance.
6. If the damage has been removed with less than 0.5 mil of the color/clear coat removed, buff and
polish to remove the sanding marks.
Technical Service Bulletin # 87-145 Date: 870928
Paint - Spotting Prevention & Repair
Classification: BF87-030
Page 619
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 1135
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1171
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5276
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 702
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3548
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3121
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4139
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5904
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 2856
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3553
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9442
Description (Part 1 Of 2)
Page 5992
Ignition Coil: Description and Operation
COMPONENT DESCRIPTION Ignition Coil & Power Transistor
The ignition signal from the ECM is sent to the power transistor. The power transistor switches on
and off the ignition coil primary circuit. As the primary circuit is turned on and off, the proper high
voltage is induced in the coil secondary circuit.
Page 784
Ground Distribution
Testing and Inspection
Wiper Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 5541
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 752
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4261
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4032
13. Select Confirm
14. Select Diagnosis
15. Wait for ECM Diagnosis to complete.
Page 2408
Engine Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1913
Main Bearing Cap Bolts Tightening Sequence
Connecting Rod
(1) Tighten to 14 to 16 Nm (1.4 to 1.6 kg-m, 10 to 12 ft. lbs.). (2) Tighten bolts 60 +5/-0 degrees
clockwise with an angle wrench.
GIf an angle wrench is not available, tighten them to 38 to 44 Nm (3.9 to 4.5 kg-m, 28 to 33 ft. lbs.)
Oil Pan
Page 7178
Brake Drum: Specifications
Drum (New) 11.61 in
Drum Repair Limit: Maximum Inner Diameter 11.67 in
Maximum Out Of Round 0.0012 in
Specifications
Air Flow Meter/Sensor: Specifications Mass Air Flow Table
Mass Air Flow Table
Supply Voltage 11 - 14 V
Output Voltage 0.9 - 1.8 V
At idle with engine warmed up and running under no load.
Air Flow At Idle 0.9 - 5.8 g/sec
Air Flow At 2,500 RPM 7.5 - 13.2 g/sec
Instruments - Fuel Gauge Inaccurate
Speedometer Module: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Locations
Horn Relay: Locations
Engine Compartment
Engine Compartment
Page 9139
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6688
- Apply recommended grease to contact surface and rubbing surface.
- Too much lubricant might damage clutch disc facing.
WATERPROOF - FOR 4WD MODEL
- Apply recommended sealant to contact surface of transmission case dust cover and withdrawal
lever, then install dust cover clip.
Recommended sealant: Nissan genuine part (KP115-00100) or equivalent.
Page 6060
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 828
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2424
Page 5278
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 187
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3482
Ground Distribution
Page 7460
Engine Compartment
Engine Compartment
Page 4084
Page 3965
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the front heated oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 3709
27. Select the correct vehicle and model year from the list (see Figure 13 example).
28. Select Select
29. Make sure the correct vehicle is displayed (see Figure 14 example).
30. Select Confirm
Page 6303
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 3775
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9250
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 6252
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 604
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2238
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1374
Once you have set the target position, DO NOT reset it at anytime during the alignment process.
6. Begin the alignment procedure.
^ Follow all of the instructions for your particular equipment.
^ Refer to the Service Manual for alignment specifications.
If your equipment requires "rolling compensation". follow these additional tips:
^ DO NOT push or pull on the vehicle body.
IMPORTANT:
After performing "rolling compensation", DO NOT reset the target position.
When performing "caster sweep". follow these tips:
Page 2820
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2083
7. Remove the crankshaft pulley.
8. Remove the oil pan (Refer to "Removal" under "Oil Pan" in the Service Manual).
9. Remove the oil pump and distributor drive shaft, then the oil pickup strainer.
10. Remove the front cover.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
11. Remove the following parts:
^ Lower timing chain tensioner (push tensioner piston in and insert a suitable pin into the hole to
retain the tensioner piston in the tensioner body).
^ Chain tension arm.
^ Lower timing chain guide.
12. Remove the upper timing chain (refer to "Removal of Upper Timing Chain" in this bulletin).
13. Wipe off the links of the timing chain next to the timing marks on the sprockets. Put paint marks
on the timing chain, matching them with the timing marks on the crankshaft sprocket and idler
sprocket (see Figure 3).
14. Remove the lower timing chain and sprocket.
Installation of Lower Timing Chain
1. Install the crankshaft sprocket, making sure the mating marks face the front of the engine.
2. Install the idler sprocket and lower timing chain using the mating marks and the paint marks
made during the removal process.
CAUTION:
Be careful not to tear or damage the cylinder head gasket.
3. Install chain guide and chain tension arm.
4. Install lower chain tensioner and remove the pin securing the piston into the tensioner body.
5. Front cover installation:
a. Using a scraper or other suitable tool remove all traces of liquid gasket from the cylinder block
and front cover mating surfaces.
Headlamp (Plastic) - Cloudy/Hazy Appearance
Headlamp: Customer Interest Headlamp (Plastic) - Cloudy/Hazy Appearance
Classification: ELO2-005
Reference: NTB02-053
Date: May 3, 2002
PLASTIC HEADLAMP LENS CLEANER
APPLIED VEHICLES: All Nissan vehicles with plastic headlamp lenses
SERVICE INFORMATION
This bulletin introduces 3M Plastic Polish(TM) # 39010, which should be used to clean and polish
headlamps with cloudy, hazy, or other poor appearance.
SERVICE PROCEDURE
Use 3M Plastic Polish(TM) (# 39010) to polish the headlamp lens(es) as follows:
1. Remove any dust, dirt, or debris from the headlamp lens using a soft damp cloth.
2. Dispense a quarter-size drop of 3M Plastic Polish(TM) onto a clean, dry, soft, cotton terry cloth
towel (see Figure 1a).
3. Apply the polish to the lens using a firm, circular motion (see Figure 1b).
4. Rub until dry.
5. Use a clean, dry section of cloth to remove the haze.
6. Repeat as necessary.
NOTES:
^ Material Safety Data Sheets (MSDS) for 3M Plastic Polish(TM) # 39010 are available via fax or
email by calling 3M's 24-hour "3M Helps" Customer Service line at 1-800-364-3577 OR (651)
737-6501.
^ This 3M product can be locally sourced through the following distributors:
R.S. Hughes - 1-877-774-8443 Granger Industrial Supplies - 1-800-323-0620
Page 5813
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 9538
Optional Splice
Example Diagrams
Wheels/Tires - Tire Mounting Information
Tires: All Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Page 4429
Ground Distribution
Page 9446
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4891
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Body - Warnings for Aftermarket Rust Proofing
Seat Belt Retractor: All Technical Service Bulletins Body - Warnings for Aftermarket Rust Proofing
Classification: BF88-005
Reference: TS88-015
Date: February 15, 1988
CAUTIONS FOR AFTERMARKET RUST PROOFING APPLICATION APPLIED VEHICLE(S): All
Nissan Models
SERVICE INFORMATION The National Highway Traffic Safety Administration has conducted an
investigation into potential failure of the front safety belt systems of certain vehicles due to the
unintentional application of rust-proofing material to the belt retractors in the "B" pillar area. Their
information suggests that the movement of the pendulum inside the belt retractor mechanism can
be restricted if rust-proofing material is inadvertently applied in the pendulum area. Restricting the
pendulum movement can result in the belts failing to protect occupants in an accident. Nissan's
current models have extensive anti-corrosion treatment applied at the factories and we do not
endorse "rust-proofing" at the dealer or aftermarket level. The only instance in which Nissan
recommends rust-proofing be applied is in the case of body panel replacement (Please refer to
Service Bulletin TS82-066, BF82-007 for instructions about rust-proofing replacement body
panels). If additional rust-proofing is applied to Nissan vehicles, DO NOT apply rust-proofing to the
"B" pillar area near the seat belt retractor, or any other location near the seat belt retractors of any
vehicle. Of course, the usual precautions in applying rust-proofing material still apply. For example,
it is important that rust-proofing material not be inadvertently applied to door lock assemblies, drain
holes, the exhaust system or driveshaft. IMPROPER RETRACTOR OPERATION CAUSED BY
THE INSTALLATION OF RUST-PROOFING MATERIAL WILL BE THE RESPONSIBILITY OF
THE INSTALLING AGENCY.
Page 7777
6. Remove oil seal. 7. Remove U-packing.
CAUTION: When removing oil seal and U-packing, be careful not to scratch gear housing.
8. Remove lock nut, then loosen adjusting screw using a screwdriver. Separate sector cover and
sector shaft.
9. Remove O-ring.
10. Remove U-packing.
CAUTION: ^
When removing U-packing, be careful not to scratch sector cover, needle bearing, etc.
^ Needle bearing cannot be disassembled. If it is damaged, remove sector cover assembly.
11. Remove dust seal.
Page 1905
Cylinder Head Components
Page 5503
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Compression Check: Specifications
GENERAL ENGINE SPECIFICATIONS
MISCELLANEOUS COMPONENTS
Page 3915
9. Use compressed air to remove any metal debris from inside the boss threads.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
10. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
11. Spray the boss threads with rust penetrant for 2 to 3 seconds.
12. Run a thread chaser through the boss to clean the threads.
^ Use Kent Moore part number J-43897-18 or J43897-12.
Capacity Specifications
Power Steering Fluid: Capacity Specifications
Fluid Capacity [1] .................................................................................................................................
1000 - 1100 ml (35.2 - 38.7 Imperial Fluid Ounces)
[1] At the normal operating temperature of 60 - 80° C (140 - 176° F).
Page 1311
Ground Distribution
Page 2386
Passenger Compartment (Part 1 Of 2)
Page 3504
Optional Splice
Example Diagrams
Page 4077
Engine Control Module: Testing and Inspection
ECM HARNESS CONNECTOR TERMINAL LAYOUT
Page 2475
Ignition Control Module: Description and Operation
COMPONENT DESCRIPTION Ignition Coil & Power Transistor
The ignition signal from the ECM is sent to the power transistor. The power transistor switches on
and off the ignition coil primary circuit. As the primary circuit is turned on and off, the proper high
voltage is induced in the coil secondary circuit.
Diagram Information and Instructions
Idle Up Control Valve: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9174
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Specifications
Page 4588
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2467
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 692
Description (Part 1 Of 2)
Page 6101
Ignition Control Module: Testing and Inspection
COMPONENT INSPECTION Power Transistor
1. Disconnect camshaft position sensor & power transistor harness connector and ignition coil
harness connector.
2. Check power transistor resistance between terminals (2) and (8).
If NG, replace distributor assembly.
Page 953
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9031
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 3265
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5292
Type Of Standardized Relays (Part 2 Of 2)
Page 2069
5. Install rear oil seal retainer.
a. Before installing rear oil seal retainer, remove all traces of liquid gasket from mating surface
using a scraper.
- Also remove traces of liquid gasket from mating surface of cylinder block.
b. Apply a continuous bead of liquid gasket to mating surface of rear oil seal retainer.
- Use Genuine RTV Silicone Sealant, Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
- Apply around inner side of bolt holes.
Page 4362
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5609
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Front Differential
Page 5623
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3108
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1833
Page 4408
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor Heater
COMPONENT INSPECTION
Rear heated oxygen sensor heater Check the following.
1. Check resistance between terminals (2) and (3).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
2. Check continuity.
If NG, replace the rear heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Diagram Information and Instructions
Data Link Connector: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
A/T - Fluid Application
Fluid - A/T: Technical Service Bulletins A/T - Fluid Application
Classification: AT96-001
Reference: NTB98-042
Date: May 15, 1998
AUTOMATIC TRANSMISSION FLUID
This amended version of NTB95-055 updates information regarding the Recommendation ATF
usage.
Please disregard previous NTB95-055 and NTB93-065.
SERVICE INFORMATION
IMPORTANT NOTE:
Nissan Matic "D" ATF must be used in performing repairs paid by Nissan, such as warranty,
service contract, or goodwill repairs. Nissan will not reimburse dealers for repairs when
non-genuine Nissan Matic "D" is used.
For current and prior production Nissan vehicles, front wheel and/or rear wheel drive, only Nissan
Matic "D", or other ashless petroleum based ATF, is formulated to meet the requirements of Nissan
automatic transmissions and automatic transaxles. Nissan Matic "D", or other ashless petroleum
based ATF, assists in ensuring transmission durability, smooth driveability, low exhaust emissions
and customer satisfaction.
Only an ashless type petroleum based ATF should be used to repair Nissan vehicles because
other types of ATF may contain compounds which adversely affect transmission performance.
Specifically, ash will impact friction response. In addition, ATF with ash is likely to have a higher
Zinc (Zn) content. Zinc will adhere to clutch linings and cause slippage, resulting in transmission
damage.
For ordering procedures, please refer to the "Dealer Confidential Parts Price List".
Page 118
31. Select Diagnosis
32. Wait for System Call to complete and CAN Diagnosis to reach 51%.
When the CAN diagnosis reaches 51%, the process icons in the Process Guide Area at the top of
the screen will light (become enabled).
33. When the icons light, click on the "Final Check" icon.
Page 3857
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 481
Optional Splice
Example Diagrams
Page 2130
Page 2534
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4550
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 155
Engine Control Module: Description and Operation
COMPONENT DESCRIPTION
The ECM consists of a microcomputer, diagnostic test mode selector, and connectors for signal
input and output and for power supply. The unit controls the engine.
Diagram Information and Instructions
Throttle Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 545
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 4668
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3830
Idle Up Control Valve: Testing and Inspection
COMPONENT DESCRIPTION
When the air conditioner is on, the IACV-FICD solenoid valve supplies additional air to adjust to the
increased load.
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 743
Ground Distribution
Page 9459
Parking Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1581
Use the Diagnosis/Repair Flow Chart shown to determine the diagnosis and repair of the vehicle.
Low Hose Visual and Leak Detector Inspection
Low Hose Visual Inspection
Page 3889
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7584
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
Page 7014
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2793
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the front heated oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 2885
Description (Part 1 Of 2)
Page 6834
TRANSFER CASE DIAGNOSTIC TABLE
Page 5557
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3791
Idle Speed/Throttle Actuator - Electronic: Testing and Inspection
COMPONENT INSPECTION IACV-AAC Valve
Disconnect IACV-AAC valve harness connector.
- Check IACV-AAC valve resistance.
Resistance: Approximately 10 Ohms [at 25° C (77° F)]
- Check plunger for seizing or sticking.
- Check for broken spring.
Page 4379
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5312
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
Page 5150
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3665
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7058
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2741
NOTES:
^ Rust penetrant is considered a shop supply.
^ Nissan Rust Penetrant can be ordered through the Nissan Direct Ship Chemical Care Product
Program, Website order via link on dealer portal.
^ WD-40 is available from various local sources.
Removal Tool
^ When removing a seized exhaust sensor with a specialty socket (which contains a slit to
accommodate the wiring harness), it may spread open and
strip the sensor.
^ Before this occurs, it is recommended to cut the wiring harness from the sensor and use a box
end wrench or 6-point deep well socket.
1. Clamp the exhaust manifold/catalyst/front tube in a vice.
2. Spray the sensor with the rust penetrant for 2 to 3 seconds.
^ It is important that the spray is directed at the base of the sensor to ensure it penetrates into the
threads.
Page 4216
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Locations
Clutch Switch: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 3950
Type Of Standardized Relays (Part 2 Of 2)
Page 5398
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Specifications
Page 2465
Ignition Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8960
Key Switch (Insert)
Key Switch (Insert)
Check continuity between terminals when key is inserted in ignition key cylinder and key is
removed from ignition key cylinder.
Driver Side Door Switch
Driver Side Door Switch
Check continuity between terminals when door switch is pushed.
Seat Belt Buckle Switch
Seat Belt Buckle Switch
Check continuity between terminals when seat belt is fastened and unfastened.
Page 3543
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7735
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 5726
Description (Part 1 Of 2)
Page 4367
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2745
Oxygen Sensor: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 2843
Description (Part 1 Of 2)
Page 1508
Spark Plug: Specifications Gap
Gap
Spark plug gap mm. 1.0-1.1
Spark plug gap in. 0.039-0.043
Page 577
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Service and Repair
Axle Nut: Service and Repair
Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Auto Lock Free Running Hub
Page 9128
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7655
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4455
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7691
Standard length "L" (4WD): 297.6 mm (11.72 inch)
CAUTION: Make sure that tie rod bars are screwed into tie rod tube more than 29 mm (1.14 inch)
(2WD), 22 mm (0.87 inch) (4WD).
INSPECTION
Ball Joint And Swivel Joint
1. Check joints for play. If ball or swivel stud is worn and play in axial direction is excessive or joint
is hard to swing, replace as a complete unit.
Swinging force (Measure point: Cotter pin hole) "A":
Ball joint: 15.7 - 147.1 N (3.5 - 33.1 lbs.) Rotating torque "B":
Ball joint: 0.5 - 4.9 Nm (4.3 - 43.4 inch lbs.)
Swivel joint: 1.0 - 5.9 Nm (8.7 - 52.1 inch lbs.)
Axial end play "C":
Ball joint: 0 mm (0 inch) Swivel joint: 0 mm (0 inch)
2. Check condition of dust cover. If it is cracked excessively replace dust cover. When replacing
dust cover, be careful not to damage it.
3. Lubricate joint with multi-purpose grease, if necessary.
4. When installing boot band with commercial service tool, be careful not to overexpand it.
CAUTION: Be careful not to apply grease or oil to taper of joint.
Idler Arm Assembly
- Check rubber bushing of idler arm for breakage, wear or play, and if necessary replace.
- Lubricate idler arm assembly with multi-purpose grease, if necessary.
Relay Rod And Tie-Rod
- Check tie rod and relay rod for breakage, bends or cracks, and replace with a new one if
necessary.
Steering Damper
- Check for oil leaking from damper, and replace if necessary.
Fixing Location
- Check fixing location (nuts and cotter pins) for looseness, play or breakage.
- When looseness or play is found, check for wear on tapered portion of joints, gear arm of idler
arm.
- When reassembling each joint, use new cotter pins.
Page 3204
^ Refer to Figure 3 for the specific vehicle you are working on
CAUTION:
Never adjust the throttle slop screw. It is pre-set at the factory.
6. Check "B"; Insert the thicker feeler gauge "B" (from Chart 1) between the throttle adjustment
screw and the throttle drum stop (see Figure 3). The CTPS should NOT have continuity.
(ohmmeter reads "OL").
7. If the results of steps 5 and/or 6 are not OK, loosen the TPS retaining bolts and adjust the CTPS
to achieve the correct results.
8. Tighten the TPS retaining bolts, then repeat steps 5 and 6 two or three times to check the new
adjustment.
9. Re-connect the harness connector to the CTPS portion of the (TPS). Reset throttle position
sensor idle position memory.
NOTE:
Failure to reset the TPS idle position memory may result in the idle speed staying higher than
specification.
10. Start engine and warm it to operating temperature.
NOTE:
Always warm up engine to normal operation temperature, If the engine is cool, the throttle position
memory will not be reset correctly.
Page 1947
Piston: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Page 2221
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 8748
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 436
Type Of Standardized Relays (Part 2 Of 2)
Page 9141
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2149
Page 2049
3. Install oil pan
- Tighten oil pan bolts in numerical order: 5.9 - 6.9 Nm (0.6 - 0.7 kg.m, 52 - 61 inch lbs.)
- Wait at least 30 minutes before refilling engine oil.
4. Install parts in reverse order of removal.
Page 8204
Comments regarding condensers:
^ The parallel flow condenser can be identified by the refrigerant end tanks, and smaller, more
closely spaced center section tubes.
Page 6854
Center Support: Service and Repair
DISASSEMBLY
CENTER BEARING
1. Place matching marks on flanges, then separate 2nd tube from 1st tube.
2. Place matching marks on the flange and shaft.
3. Remove locking nut using Tool.
Tool number: ST38060002 (J34311)
4. Remove companion flange using puller.
5. Remove center bearing using Tool and press.
Tool number: ST30031000 (J22912-01)
JOURNAL
Page 4754
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5505
Type Of Standardized Relays (Part 2 Of 2)
Page 6869
Part 2 of 4
Page 4330
Ground Distribution
Page 1234
Impact Sensor: Description and Operation
Description
Description
4WD Models
The diagnosis sensor unit will deploy the air bags if the G-sensor and/or the crash zone sensor
activates simultaneously with the safing sensor while the ignition switch is ON. The passenger air
bag does not deploy when the passenger air bag deactivation switch is turned to the OFF position.
Page 5102
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3147
Ground Distribution
Page 642
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5007
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 9231
Description (Part 1 Of 2)
Page 993
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 5675
Fuel Temperature Sensor: Electrical Diagrams
EC-TFTS-01 Tank Fuel Temperature Sensor (DTC: P0180)
Circuit Diagrams
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 3176
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4174
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Testing and Inspection
Ignition Cable: Testing and Inspection
COMPONENT INSPECTION Ignition wires
1. Inspect wires for cracks, damage, burned terminals and for improper fit. 2. Measure the
resistance of wires to their distributor cap terminal. Move each wire while testing to check for
intermittent breaks.
Resistance: 13.6 - 18.4 K Ohms (4.15 - 5.61 K Ohms/ft) at 25°C (77°F)
If the resistance exceeds the above specification, inspect ignition wire to distributor cap connection.
Clean connection or replace the ignition wire with a new one.
G Sensor
Impact Sensor: Service and Repair G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the G Sensor requires replacement of the Diagnosis Sensor Unit. Refer to Diagnosis
Sensor Unit / Service and Repair.
Page 5853
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 974
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6720
Carrier Bearings: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Differential; Service and Repair.
Page 879
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3980
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5851
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 7667
Center Link: Service and Repair
STEERING LINKAGE
REMOVAL AND INSTALLATION
Refer to the illustrations when servicing.
1. Remove pitman arm with Tool.
Page 4830
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 5084
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6525
Page 5748
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Diagram Information and Instructions
EGR Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Service and Repair
Seals and Gaskets: Service and Repair
REPLACEMENT
1. Remove propeller shaft from vehicle.
2. Remove rear oil seal. 3. Install rear oil seal.
- Apply ATF before installing.
4. Reinstall any part removed.
Page 5558
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 719
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 5778
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9591
If you also remove door glass, refer to Service Manual for procedures.
TYPE-A: DOOR SASH + SEALING SCREEN TYPE (FR/RR)
1. Remove the door finisher assembly.
2. Remove the sealing screen and the door speaker (if equipped).
3. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
4. Remove the glass mounting bolts.
5. Raise up the door glass and hold with a suction lifter.
6. Remove the mounting bolts, and remove regulator assembly.
7. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-B: DOOR SASH + MODULE (FR)/FRAME (RR) TYPE
Page 6208
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4416
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6205
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Specifications
Brake Light Switch: Specifications
TIGHTENING SPECIFICATIONS
Switch Nut ...........................................................................................................................................
........................... 12 - 15 Nm (108 - 132 inch lbs.)
Page 2290
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9414
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3635
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5986
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5577
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3774
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5251
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5180
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3437
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 381
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3693
Page 6535
2. From the driver's side floor area, looking up behind the driver lower instrument panel, the lower
portion of the steering column should be visible. On the bottom side of the steering column just in
front of the driver lower instrument panel should be a white paper label with a four digit date code
(see Figure 1).
NOTE:
Vehicles within the campaign range that were repaired prior to this campaign (i.e. as a Port
Modification) will have an orange label over or adjacent to the white paper label. These vehicles do
not require additional repair.
3. If the A/T shifter assembly replacement is required, proceed to the Service Procedure section of
this bulletin.
PARTS INFORMATION
Parts for this voluntary safety recall must be ordered through Nissan's Customer Care Parts
Ordering Program.
CLAIMS INFORMATION
Submit a Campaign Line (CM) claim using the claims coding table as shown.
Towing Expense:
If required, towing expenses to the nearest Nissan dealer should be submitted using expense code
501.
Page 6839
Page 3346
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 1091
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8083
SYMPTOM: Magnet clutch does not engage when A/C switch and fan switch are ON.
MAGNET CLUTCH OPERATION CHECK
1. Start engine. 2. Slide fan control lever to operate blower motor. 3. Push A/C switch to ON. Make
sure that magnet clutch is engaged. (You can hear magnet clutch engage sound.) 4. Push A/C
switch to OFF. Make sure that magnet clutch is disengaged.
NOTE: If magnet clutch sticks, check magnet clutch.
Page 3714
Engine Control Module: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3443
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Steering/Suspension - Pull Or Drift Diagnostics
Alignment: Customer Interest Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Diagnostic Flow Chart
Road Test
Determine if the vehicle has a pull or steering wheel off-center issue that requires repair.
IMPORTANT:
^ If the vehicle has any tire issues, such as:
> Tires that are different sizes (except when specified from the factory)
> Significant difference in the amount of wear between any of the tires
> Any other tire irregularity or damage to any tire
Page 7275
Vacuum Brake Booster: Testing and Inspection Operation Check
- Depress brake pedal several times with engine off. After exhausting vacuum, make sure there is
no change in pedal stroke.
- Depress brake pedal, then start engine. If pedal goes down slightly, operation is normal.
Page 7041
Without Scan Tools
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Stop the vehicle, turn ignition switch "OFF", wait at least 5 seconds and then turn "ON" (4)
Perform "Diagnostic Test Mode II (Self-diagnostic results)" with ECM.
DIAGNOSTIC PROCEDURE
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Page 1792
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Page 546
Crankshaft Position Sensor: Electrical Diagrams
EC-CKPS-01 Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
(OBD) Circuit Diagrams
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 5050
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 566
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3371
8. If the vehicle is not CONSULT compatible, monitor the idle speed using the tachometer
connected in step 1. If using CONSULT, perform the following procedure:
Monitor the idle speed (CMPS^RPM) on the CONSULT screen.
9. Check the idle rpm and adjust to specification (if necessary) using the screw on the IACV-AAC
valve.
The table shows ignition timing and base idle speed for some models.
If the model or model year you are working on is not listed, refer to the appropriate service manual
(EF &) EC section, and perform the "IDLE SPEED/IGNITION TIMING/IDLE MIXTURE RATIO
INSPECTION" procedure.
10. Turn the engine off, and re-connect the TPS.
CD Changer - CD Care and Usage Guidelines
Compact Disc Player (CD): Technical Service Bulletins CD Changer - CD Care and Usage
Guidelines
Classification: EL00-007
Reference: NTB00-064
Date: July 24, 2000
AUDIO CD CARE AND USAGE GUIDELINES
APPLIED VEHICLES: All Nissan Vehicles with an Audio Compact Disc (CD) System
SERVICE INFORMATION If an audio CD system incident is noted, a possible cause may be
improper CD care or usage. This bulletin provides updated CD operation instructions to avoid
potential audio CD incidents/customer concerns caused by improper care and usage of compact
discs. To aid in solving customer concerns, use the following guidelines when speaking to
customers or inspecting incident vehicles.
^ Ensure that the customer only uses CDs that have the "Compact Disc Digital Audio" insignia on
them (see Figure 1). The audio CD system was designed to use CDs that meet this design
standard. Lower quality CDs may not function properly in the audio CD system.
^ Customers must not use special shaped CDs (see Figure 2). The Audio CD system was
designed to use standard 12 cm (4.7 in) round CDs. Other shapes and sizes may cause the
internal CD mechanism to jam or have optical pick-up errors.
Page 1217
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 4308
Intake Air Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The intake air temperature sensor is mounted to the air duct housing. The sensor detects intake air
temperature and transmits a signal to the ECM. The temperature sensing unit uses a thermistor
which is sensitive to the change in temperature. Electrical resistance of the thermistor decreases in
response to the temperature rise.
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6337
34. CAN diagnosis will run again. When it reaches 51% and the icons light, click on the
"Duplication Test" icon.
35. When the screen in Figure 18 appears, click on All Erase.
36. Click on Yes (see Figure 18).
37. Use the scroll bar to scroll down the page and make sure all DTCs are erased.
^ For any DTCs that do not erase: diagnose, perform repairs, and erase DTCs.
^ Refer to the Service Manual as needed.
Reprogramming is finished. Continue with the Procedure below.
38. Close C-III, then turn the ignition OFF.
39. Make sure the throttle is released and your foot is NOT pressing either the brake or clutch
(M/T) pedal;
Page 1386
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
4. Follow the appropriate repair procedure outlined in this section of the bulletin.
Preliminary Steps
Always perform these preliminary steps before performing the other listed diagnosis and repair
procedures.
1. Check and adjust tire pressure. A pressure difference of 3 psi or more from one side of the car to
the other can cause the vehicle to drift toward the side with the lower pressure.
2. Determine if the wheels and tires are the same as the wheels and tires that were originally
supplied on the vehicle.
3. Visually inspect the vehicle for unusual load conditions. Remove unusual loads before road
testing.
4. Visually inspect the tires for wear and condition. Replace tires that show damage or have
excessive or uneven wear.
5. If corrections are made to the tire pressure, vehicle load condition or tire condition, road test the
vehicle again to determine if the incident continues to occur. If so, refer to the appropriate diagnosis
and repair information below.
Steering Pull Diagnosis And Repair
1. Confirm the direction of pull with a road test.
2. Remove the front wheels and exchange them left to right and right to left.
Page 6758
2. Install the two halves of the bearing puller jaw PIN J-45073-7 around the outer axle bearing
making sure the lower lip of each jaw is slid under the bearing (see Figure 6a).
3. Slide the sleeve P/N J-25852-4 over the bearing puller jaws (see Figure 6b).
4. Tighten the forcing screw of the extension tube until the axle bearing is pulled free (see Figure
6c).
IMPORTANT:
Do not use an impact wrench to tighten the forcing screw.
5. Remove the sleeve, bearing puller jaws, extension tube, and outer bearing from the axle shaft.
NOTE:
The inner axle bearing race (that remains in the brake backing plate) can be removed using the
conventional press removal method.
6. Re-assemble the axle shaft assembly according to the applicable service manual procedures.
Use bearing lock nut wrench P/N J-45073-1 to tighten the axle lock nut to the specification listed in
the applicable service manual.
NOTE:
When tightening the axle shaft lock nut, make sure the lock nut wrench (P/N J45073-1) is installed
on the torque wrench at 90 degrees (see Figure 7) to achieve the most accurate torque application.
7. Re-install the axle shaft assembly in the vehicle according to the applicable service manual
procedures.
Page 8022
TRANSFER CASE DIAGNOSTIC TABLE
Page 3590
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Front Wheel Bearing
Wheel Bearing: Testing and Inspection Front Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
- Adjust wheel bearing preload if there is any axial end play or wheel bearing does not turn
smoothly.
MIL ON - DTC P0500 (VSS)
Vehicle Speed Sensor: All Technical Service Bulletins MIL ON - DTC P0500 (VSS)
BULLETIN NUMBER: NTB99-013
CLASSIFICATION: EC99-001
DATE: April 1, 1999
TITLE: 1998-99 MY FRONTIER TRUCK M/T MIL "ON" P0500
SERVICE INFORMATION
If an applied 1998-99 Frontier Truck (manual transmission, KA24DE Engine only) shows the
following conditions:
1. MIL "ON" with DTC P0500 stored,
2. CONSULT freeze frame data indicates an engine speed value of 2000 rpm or less,
3. No abnormal speedometer indication during test drive, then use this bulletin to repair the incident
This incident may be due to a clutch slip condition for more than 10 seconds with a vehicle forward
speed of less than 3 mph. This situation could occur during hill holding using clutch slip.
Correct this incident by installing the ECM listed in the Parts Information using the following service
procedure.
SERVICE PROCEDURE
1. Verify DTC stored is P0500
2. Verify the CONSULT freeze frame data stored has an engine speed value of 2000 rpm or less
(see Figure 1).
3. Conduct test drive to confirm there is no abnormal speedometer indication:
a) Connect CONSULT and select Start, Engine, Data Monitor and Main Signals
b) Test drive vehicle and ensure the speedometer and the vehicle speed sensor value displayed in
Data Monitor provide consistent speed
Page 6735
Pinion Gear: Specifications Rear Differential
With H190A Final Drive
DRIVE PINION HEIGHT ADJUSTMENT
DRIVE PINION PRELOAD ADJUSTMENT
With C200 Final Drive
DRIVE PINION HEIGHT ADJUSTMENT
Page 3930
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4542
Ground Distribution
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 7738
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 877
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6248
Ground Distribution
Page 407
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2637
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2497
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Recall 98V065000: Seat Belt May Get Cut/Sliced
Seat Belt: All Technical Service Bulletins Recall 98V065000: Seat Belt May Get Cut/Sliced
Year: 1998 Make: NISSAN TRUCK Model: FRONTIER Year of Recall: '98 Type of Report: Vehicle
Potential Number of Units Affected: 20000 Summary:
Vehicle Description: Light duty passenger trucks equipped with bucket seats. In certain frontal
crashes, the front seat belt can slip between the seat bottom finisher and the seat back plastic
recliner handle where it can be cut by the sharp edge of the metal portion of the recliner lever.
If the seat belt is completely severed, it can increase the risk of serious injury to an occupant in a
crash.
Dealers will replace the plastic handle on the end of the seat back reclining lever with a different
shape handle which will prevent the seat belt from slipping between the handle and the seat.
Owner notification is expected to begin during April 1998. Owners who take their vehicles to an
authorized dealer on an agreed upon service date and do not receive the free remedy within a
reasonable time should contact Nissan at 1-800-NISSAN-1 (1-800-647-7261). Also contact the
National Highway Traffic Safety Administration's Auto Safety Hotline at 1-888-DASH-2-DOT
(1-888-327-4236).
Page 3467
Optional Splice
Example Diagrams
Page 6317
Page 5747
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1794
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Page 6052
Ground Distribution
Page 6137
Type Of Standardized Relays (Part 2 Of 2)
Engine Controls - Seized O2 Sensor Removal Procedure
Technical Service Bulletin # 10-009 Date: 100119
Engine Controls - Seized O2 Sensor Removal Procedure
Classification: EM09-015
Reference: NTB10-009
Date: January 19, 2010
REMOVAL PROCEDURE FOR SEIZED EXHAUST SENSOR
APPLIED VEHICLES: All Nissan vehicles
SERVICE INFORMATION
If an exhaust sensor is seized in the exhaust manifold/catalyst/front tube, perform the procedure
described in this bulletin to remove the sensor and prevent unnecessary replacement of the
exhaust manifold/catalyst/front tube.
In most cases this procedure is successful. This is because the threads of the exhaust sensors are
made of a softer material than the part they thread into on the exhaust manifold/catalyst/front tube.
NOTE:
The replacement of exhaust manifolds/catalysts/front tubes for stripped exhaust sensor threads
may not be considered a warrantable expense.
This procedure can be performed by two methods:
Method #1 - If the Sensor Can Be Easily Accessed
^ The procedure can be performed on the vehicle.
^ The exhaust manifold/catalyst/front tube will not have to be removed.
Method #2 - If the Sensor Cannot Be Easily Accessed
^ The exhaust manifold/catalyst/front tube must be removed from the vehicle.
^ The procedure will be performed with the part clamped in a vice.
Method #2 is described in this bulletin. Method #1 is the same as Method #2 except that it is
performed on the vehicle.
Service Procedure
Rust Penetrant
Recommended rust penetrants to be used in this procedure:
Page 3509
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8024
Front Heated Oxygen Sensor
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor
COMPONENT INSPECTION Front heated oxygen sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "MANU TRIG" and "HI
SPEED" in "DATA MONITOR" mode with CONSULT, and select "FR O2 SENSOR" and "FR O2
MNTR". (3) Hold engine speed at 2,000 rpm under no load during the following steps. (4) Touch
"RECORD" on CONSULT screen. (5) Check the following.
- "FR O2 MNTR" in "DATA MONITOR" mode changes from "RICH" to "LEAN" to "RICH" 5 times in
10 seconds. 5 times (cycles) are counted as shown below: cycle | 1 | 2 | 3 | 4 | 5 | FR O2 MNTR
R-L-R-L-R-L-R-L-R-L-R R = "FR O2 MNTR", "RICH" L = "FR O2 MNTR", "LEAN"
- "FR O2 SENSOR" voltage goes above 0.6V at least once.
- "FR O2 SENSOR" voltage goes below 0.35V at least once.
- "FR O2 SENSOR" voltage never exceeds 1.0V.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (50) (sensor signal) and (32) (ECM ground). (3) Check the following with engine
speed held at 2,000 rpm constant under no load.
- Malfunction indicator lamp goes on more than 5 times within 10 seconds in Diagnostic Test Mode
II (FRONT HEATED OXYGEN SENSOR MONITOR).
- The maximum voltage is over 0.6V at least one time.
- The minimum voltage is below 0.35V at least one time.
- The voltage never exceeds 1.0V.
Page 2362
Page 2970
Page 8730
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2800
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor Heater
COMPONENT INSPECTION
Rear heated oxygen sensor heater Check the following.
1. Check resistance between terminals (2) and (3).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
2. Check continuity.
If NG, replace the rear heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Page 1307
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7451
Circuit Breaker: Testing and Inspection
Circuit Breaker Inspection
For example, when current is 30 A, the circuit is broken within 8 to 20 seconds. Circuit breakers are
used in the following systems.
^ Power Window & Power door lock
^ Multi-remote Control System
^ Theft Warning System
^ Warning Chime (with power door locks)
^ Room lamp (with power door locks)
Engine Coolant - Special Refilling Tool
Coolant: Technical Service Bulletins Engine Coolant - Special Refilling Tool
Classification: TE02-001a
Reference: NTB02-011a
Date: March 11, 2002
ESSENTIAL TOOL: ENGINE COOLANT REFILL TOOL
This bulletin amends NTB02-011. This version has the addition of a Service Procedure. Please
discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
If for any reason the vehicle's cooling system needs to be filled with coolant due to a service repair
or maintenance, use the Coolant Refill Tool # J-45695.
^ Using this tool properly will ensure complete filling without trapped air bubbles in the cooling
system.
^ Air pockets in the cooling system can cause:
A) Overheating
B) Poor heater performance
C) Gurgling noise from the heater core
To ensure the tool is used correctly, refer to the Operating Instructions supplied with the tool and
the Service Procedure in this Bulletin.
Page 1906
Timing Components
Page 4244
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3489
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2810
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5697
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5935
Ground Distribution
Page 4054
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Removal
Clockspring Assembly / Spiral Cable: Service and Repair Removal
REMOVAL
Removal - Air Bag Module And Spiral Cable
CAUTION: Before servicing SRS, turn the ignition switch off, disconnect battery ground cable and
wait for at least 3 minutes. Always work from the side of air bag module.
Air Bag Module Connector
1. Remove side lid LH from steering wheel, and disconnect air bag module connector.
Special Bolts
2. Remove side lid. Using the TAMPER RESISTANT TORX (Size T50), remove left and right
special bolts. Air bag module can then be removed.
Page 6625
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5258
EGR Temperature Sensor: Connector Views
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 984
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3207
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 8479
Impact Sensor: Service and Repair Crash Zone Sensor
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact. - Check crash
zone sensor for proper installation. Make sure that there are no deformities, dents, cracks or rust. If
there are any visible signs of damage,
replace the crash zone sensor.
- Check crash zone sensor bracket to ensure that it is free of deformities and rust.
Removal Of Crash Zone Sensor
1. Disconnect driver and passenger air bag module connectors. 2. Remove front grille. 3.
Disconnect crash zone sensor connector. 4. Using the TAMPER RESISTANT TORX (Size T50),
remove the three special bolts. The crash zone sensor can then be removed.
NOTE:
- To install, reverse removal procedure. - After replacement, perform Self-diagnosis for SRS. Refer
to "SRS Operation Check".
Page 2015
^ Pulley should turn with some dragging
^ If it locks or has unusual resistance, replace the alternator.
Page 3235
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5361
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4321
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4193
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6021
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8679
3. Install one-inch squares of 1/4-inch-thick, adhesive-backed foam tape (3M Scotch-foam" 4504 #
021200-03320 or equivalent) to the headliner panel near the sunroof opening. Place the one-inch
squares every five inches around the sunroof opening, 1/8 inch from the edge of the headliner
panel (see Figure 5).
4. Reinstall the sunroof weather strip.
5. Reinstall the sunroof panel and inner shade panel.
6. Road test the vehicle to confirm the incident noise is resolved.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 6020
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7530
> Engine coolant and lubricating oils at specified levels
> Spare tire, jack, hand tools, and floor mats in designated positions
NOTE:
Refer to the appropriate Service Manual for information about any of the above checks and
inspections.
4. Check the target mounts.
^ If there is any visual damage (bent, worn, cracked, etc), have the equipment repaired before
performing any alignments.
^ Make sure the target mounts are properly adjusted and configured (see Figure 11).
NOTE:
The target mount example shown in Figure 11 is for Hunter "camera type" alignment machines.
Follow the operation manual for your specific equipment.
Page 1006
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8773
CLAIMS INFORMATION
Repairs of environmental contamination discovered and reported at the time of vehicle delivery to
the dealership can be claimed utilizing procedures outlined in Warranty Bulletin WB92-003 dated
January 24, 1992.
Outline of Procedures
A. Wash with detergent such as (Nissan P/N 999MP-A3100), then dry.
B. Identify the type of contamination using fluorescent lights and magnification. If paint over-spray
is found, a specialized repair process is needed.
If paint contamination other than paint over spray is suspected, test a 2' x 2' section on each
affected panel as follows to determine the severity of damage and repair effort needed:
C. Re-wash several times to remove detergent and water soluble spots. If spots are removed,
wash affected panels.
D. Clean with Nissan Bug and Tar remover for solvent soluble spots. If spots are removed, clean
affected panels.
E. To remove iron particles and acid rain residue, use Finish Kare # 1119 followed by # 883 (apply
# 883 several times if necessary) and always neutralize with # 118SC.
Page 4210
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 207
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7922
Page 5978
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3809
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 5895
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5495
Ground Distribution
Page 4689
Throttle Position Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 653
Ground Distribution
Page 9395
Headlamp: Adjustments
Aiming Adjustment
When performing headlamp aiming adjustment, use an aiming machine, aiming wall screen or
headlamp tester. Aimers should be in good repair, calibrated and operated in accordance with
respective operation manuals. If any aimer is not available, aiming adjustment can be done as
follows: For details, refer to the regulations in your own country.
a. Keep all tires inflated to correct pressures. b. Place vehicle and tester on one and same flat
surface. c. See that there is no-load in vehicle (coolant, engine oil, filled up to correct level and full
fuel tank) other than the driver (or equivalent weight
placed in driver's position)
Aiming Adjustment
AIMING ADJUSTMENT MARK
When using a mechanical aimer, adjust adapter legs to the data marked on the headlamps.
Adjustment value for mechanical aimer
Low Beam
LOW BEAM
1. Turn Headlamp low beam on 2. Use a #2 cross-recessed screwdriver to adjust the aim of the
lamp. ^
Cover the opposite lamp.
Page 4309
Intake Air Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION
Intake air temperature sensor Check resistance as shown in the figure. If NG, replace intake air
temperature sensor.
Page 7296
Wheel Speed Sensor: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 4213
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4593
Ground Distribution
Page 7040
NOTE: If "DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE" has been previously
conducted, always turn ignition switch "OFF" and wait at least 5 seconds before conducting the
next test.
TESTING CONDITION:
Always perform the test at a temperature of -10° C (14° F) or higher.
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Turn ignition switch "OFF" and
wait at least 5 seconds. (3) Start engine. (4) Select "TCC S/V FNCTN P1776" of "A/T (TCC S/N)" in
"DTC WORK SUPPORT" mode with CONSULT. (5) Touch "START". (6) When the following
conditions are met, "TESTING" will be displayed on the CONSULT screen. Maintain the conditions
continuously until
"TESTING" changes to "COMPLETED". (It will take approximately 20 seconds.) Selector lever: D
(OD "ON") Vehicle speed: 76 - 100 km/h (47 - 62 MPH) CMPS.RPM (REF): Less than 2,150 rpm
(Single cab model) Less than 2,300 rpm (King cab model) B/FUEL SCHDL: 2.5 - 5 ms THRTL POS
SEN: Less than 1.3V If "TESTING" is not displayed after 5 minutes, retry from step 2).
(7) Make sure that "OK" is displayed after touching "SELFDIAG RESULTS".
If "NG" is displayed, refer to "DIAGNOSTIC PROCEDURE".
OR
With Generic Scan Tool
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Select MODE 7 with GST.
OR
Page 6237
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7518
Replace the tire(s) or use known good tires from another vehicle for all road tests and diagnostics
in this bulletin.
^ Make sure tire pressure is set to the correct specification.
1. Install the following measuring tools on the vehicle:
^ Steering Wheel Offset Gauge
^ Road Crown Gauge
NOTE:
Refer to "Special Tool" for a description of these tools and an explanation of their use.
2. Obtain a watch with a second hand (preferably a stopwatch) to use during the road test.
3. Take the vehicle for a road test and confirm the customers concern.
^ Select a flat road where the vehicle can be driven in a straight line at a preferred speed of 60
mph.
^ During the road test make sure the vehicle is pointing straight. Don't worry about steering wheel
position during the road test.
NOTE:
^ If you adjusted the tire pressure or changed the tires before the road test, the issue may have
been resolved.
^ If there are cross winds strong enough to affect the vehicle's straight line movement, then
diagnosis cannot be performed.
4. Determine the vehicles issue - refer to the definitions of "Pull" and Steering Wheel "Off-center"
below.
5. When the road test is completed, remove the Road Crown Gauge, leave the Steering Wheel
Off-Set Gauge in place until the Service Procedure is complete.
6. Refer to the Flow Chart above for the next step.
Other Service Information
Customers may report that their vehicle's steering wheel is "off-center" because the steering wheel
spokes are tilted to the left or right when the vehicle continues straight ahead on a straight flat road
(see example in Figure 1).
If a vehicle's steering wheel spokes are slightly off center while driving straight, it may be the
normal result of road crown. Most roads in the United States are built with a "crown" to help rain
water drain from the road surface. The slope of the road crown varies from place to place.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction.
Tires and vehicles are designed to counteract the effect of typical road crown, but may not fully
counteract the effect of a highly crowned road.
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 2005
7. Remove the idler pulley assembly from the A/C compressor bracket.
8. Install the new idler pulley assembly making sure the E-ring is installed on the adjusting bolt.
9. Adjust the A/C drive belt deflection to specification. Refer to the "A/C Compressor Drive Belt
Deflection Specification" chart below.
A/C Compressor Drive Belt Deflection Specification
10. Tighten the nut that secures idler pulley to 16 - 22 Nm (1.6 - 2.2 kg-m, 12 - 16 ft-lb).
11. Re-install the engine under cover.
PARTS INFORMATION
CLAIMS INFORMATION Submit a Primary Failed Part (PP) line using the claims coding as shown.
Page 3779
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7926
2. Remove brake caliper assembly without disconnecting hydraulic line.
CAUTION: Be careful not to depress brake pedal, or piston will pop out.
- Make sure brake hose is not twisted.
3. Remove lock washer. (4WD)
4. Remove wheel bearing lock nut.
2WD: With suitable tool 4WD: With Tool
5. Remove wheel hub and wheel bearing.
CAUTION: Be careful not to drop outer bearing.
6. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
DISASSEMBLY
Page 2615
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8733
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 5055
Leak Detection Sensor: Description and Operation
COMPONENT DESCRIPTION
The EVAP control system pressure sensor detects pressure in the purge line. The sensor output
voltage to the ECM increases as pressure increases. The EVAP control system pressure sensor is
not used to control the engine system. It is used only for on board diagnosis.
Page 1306
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Hood Sensor/Switch (For Alarm): Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 5571
Idle Up Control Valve: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5236
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Instruments - Fuel Gauge Inaccurate
Speedometer Module: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Campaign - A/C Hose Replacement
Technical Service Bulletin # 98-064 Date: 980908
Campaign - A/C Hose Replacement
Reference: NTB98-064
Date: September 8, 1998
VOLUNTARY SERVICE CAMPAIGN 1998 FRONTIER POOR OR NO A/C COOLING DUE TO A/C
LOW HOSE CRACKING
CAMPAIGN I.D. # P8163
APPLIED VEHICLE: All 1998 Frontier (D22) built before VIN # 1N6DD2***WC387655
INTRODUCTION
Some 1998 Frontiers may develop refrigerant leaks in the vehicle's air conditioner lower return
hose due to vibration. To ensure customer satisfaction and prevent any future inconvenience,
Nissan has initiated a Voluntary Service Campaign to install a bracket on the lower return hose of
the air conditioning system to minimize this vibration.
IDENTIFICATION NUMBER
Nissan has assigned identification number P8163 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
The number of vehicles potentially affected is approximately 90,000.
DEALER RESPONSIBILITY
It is a dealer responsibility to check (with SERVICE-COMM) each vehicle falling within the range of
this service campaign which for any reason enters the service department. This includes vehicles
purchased from your dealership, other Nissan dealerships, private parties, or vehicles presented by
transient (tourist) owners and vehicles in dealer inventory.
A list of affected customers in your area will be sent to Nissan regional offices for distribution to
Nissan dealers once all of the customer notification letters have been sent. This list will assist you
in identifying those vehicles involved in this service campaign. Each dealership service department
is encouraged to contact these vehicle owners to have the required inspections and repairs
completed on their vehicle.
CUSTOMER FOCUS
Maintaining a strong customer relationship throughout the Frontier Air Conditioner Lower Return
Hose Campaign is one of the key goals of NMC. Each and every action taken by Nissan and the
servicing dealer will have a significant impact in retaining current Frontier owners as future
customers.
Page 8013
Page 5730
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5785
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9377
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
For USA
Headlamp (For USA)
Circuit Connectors
Page 793
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 8306
Proper Handling Of Air Bag Module
CAUTION: Always place air bag module with pad side facing upward.
- Do not attempt to disassemble air bag module.
- The special bolts are coated with bonding agent. Discard old ones after removal; replace with new
ones.
Improper Handling Of Air Bag Module
- Replace air bag module if it has been dropped or sustained an impact.
- Do not expose the air bag module to temperatures exceeding 90°C (194°F).
- Do not allow oil, grease or water to come in contact with the air bag module.
Steering Wheel Puller
3. Set steering wheel in the neutral position. 4. Disconnect horn connector and remove steering
wheel nuts. 5. Using steering wheel puller, remove steering wheel. Be careful not to over-tighten
puller bolt on steering wheel.
CAUTION: Do not tap or bump the steering wheel.
6. Remove steering column covers. 7. Disconnect spiral cable air bag harness.
Spiral Cable Retaining Screws
8. Remove the tour spiral cable retaining screws. The spiral cable can then be removed.
Page 5702
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2809
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8383
CAUTION:
Do not use pliers to squeeze or compress the button halves together. This can scratch and/or
damage the button.
7. Using water pump pliers, tighten the adjustable wrench. Compress the button to approximately
0.2 in. (5.4-5.8 mm) thickness (see Figure 4).
8. Make sure the center pin of the button is securely crimped to hold the other half of the button in
place (see Figure 2).
9. Confirm that the seat belt latch plate cannot slide past the button and it is held at shoulder height
when the seatbelt is retracted.
NOTE:
When this incident occurs, both front driver's and passenger's seat belt "D" rings must be cleaned
and "refurbished" (renewed) using the following procedural steps.
Clean "D" Ring, Install Fluorine Resin Tape
NOTE:
For 1996-99 Pathfinders built before December, 1998, see bulletin NTB00-003 for additional front
seat belt retractor assembly information.
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 5).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 5).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
3. Insert the "D" ring cleaning wire (provided in the kit listed in the PARTS INFORMATION section
of this bulletin) under the seat belt, between the belt and the "D" ring (see Figure 6).
Page 3327
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 608
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6927
Mainshaft: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Manual Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 4609
Vehicle Speed Sensor: Description and Operation
COMPONENT DESCRIPTION
The vehicle speed sensor is installed in the transaxle. It contains a pulse generator which provides
a vehicle speed signal to the speedometer. The speedometer then sends a signal to the ECM.
Page 9194
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 8175
3. Remove the tank from the weight scale platform (see Figure 4).
4. With the weight scale platform empty, the display should read close to zero + - 0.2 lbs. If the
reading is too low or too high, perform the scale calibration procedure listed below.
Weight Scale Calibration
Check the weight scale calibration at a minimum of every 3 months (or sooner if the scale is
suspected to be inaccurate). Use the following procedure to calibrate the weight scale.
1. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons to get into the diagnostic mode.
2. Press "8787". The display will read "A1".
3. Remove all weight from the scale.
4. Press "0", then press "ENTER". The display will show "0.00" and then changes to "A2".
5. Place a certified known weight (between 10 to 80 lbs) in the center of the scale platform.
NOTE: A certified 10 lb weight is available from Tech-Mate (P/N J-42363). This item can be
ordered from Tech-Mate by calling 800-662-2001.
6. Enter the weight using four digits (i.e., 10.00 for 10.00 lbs).
7. Press "ENTER". The display will return to vacuum mode.
8. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons.
9. Press "6". The display will show the weight on the scale platform.
10. Remove the weight from the scale platform. The display will return to "0.00".
11. Press the "SHIFT/RESET" button only (not "ENTER") to return to the program mode.
NOTE: If the scale cannot be calibrated or another malfunction exists, call the SPX Robinair ACR4
Help Line at 800-822-5561 or contact another qualified facility for repair.
Tank Certification
The tank must be certified on the "First Retest Date" (stamped into the top of the tank handle) and
every 5 years after the "First Retest Date". This is according to DOT-4BA-400.
NOTE: A qualified welding supply, fire extinguisher maintenance or refrigerant company can
perform the certification.
Operational Tips
Tank Position
Page 5928
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8475
Impact Sensor: Locations G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit.
Page 2492
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8723
Optional Splice
Example Diagrams
Page 6243
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3920
Oxygen Sensor: Locations
ECCS Component Parts Location
Page 1134
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5707
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7930
Wheel Hub (Locking): Service and Repair Auto Lock Free Running Hub
REPLACEMENT
1. Set auto-lock free running hub in the FREE position.
2. Remove auto-lock free running hub.
3. Remove snap ring.
4. Remove spindle washer and thrust washer.
5. After installing auto-lock free running hub, check operation.
NOTE: When installing it, apply recommended grease to the parts shown in the above illustration.
Page 6232
Optional Splice
Example Diagrams
Page 3052
EGR Temperature Sensor: Connector Views
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 4503
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4024
Page 1702
Refrigerant Oil: Service and Repair
The lubricant used to lubricate the compressor circulates through the system with the refrigerant.
Whenever any A/C component is replaced or gas leakage occurs, lubricant must be added. If
lubricant quantity is not maintained properly, the following malfunctions may result:
^ Lack of lubricant: May lead to a seized compressor
^ Excessive lubricant: Inadequate cooling (thermal exchange interference)
LUBRICANT Name: Nissan A/C System Lubricant Type R Part No.: KLH00-PAGR0
CHECKING AND ADJUSTING Adjust the lubricant quantity according to the flowchart shown.
Page 8588
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 973
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8595
EL-AUDIO-02 Audio (Part 2 Of 2)
With Premium Audio System Circuit Diagrams
Audio (Part 1 Of 2)
Base Audio System Circuit Connectors
Page 7025
Ground Distribution
Page 4415
Description (Part 1 Of 2)
Page 4211
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 1666
Comments regarding liquid tanks:
^ For R-134a, the sight glass has been deleted. Refer to the service procedures section of this
bulletin for additional information regarding the refrigerant charge determination. Pressure switches
are not interchangeable between R-12 and R-134a systems.
Page 7813
REPLACEMENT
1. Remove torsion bar spring. Refer to Torsion Bar.
Page 1914
Page 1205
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4990
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Page 3812
Ground Distribution
Page 2944
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9349
Optional Splice
Example Diagrams
Page 7564
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
Page 8861
Page 1123
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2693
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4096
Optional Splice
Example Diagrams
Page 5546
Idle Speed/Throttle Actuator - Electronic: Description and Operation
SYSTEM DESCRIPTION
This system automatically controls engine idle speed to a specified level. Idle speed is controlled
through fine adjustment of the amount of air which bypasses the throttle valve via IACV-AAC valve.
The IACV-AAC valve repeats ON/OFF operation according to the signal sent from the ECM. The
camshaft position sensor detects the actual engine speed and sends a signal to the ECM. The
ECM then controls the ON/OFF time of the IACV-AAC valve so that engine speed coincides with
the target value memorized in ECM. The target engine speed is the lowest speed at which the
engine can operate steadily. The optimum value stored in the ECM is determined by taking into
consideration various engine conditions, such as during warm up, deceleration, and engine load
(air conditioner and power steering).
COMPONENT DESCRIPTION IACV-AAC valve
The IACV-AAC valve is moved by ON/OFF pulses from the ECM. The longer the ON pulse, the
greater the amount of air that will flow through the valve. The more air that flows through the valve,
the higher the idle speed.
Page 3217
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4498
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4004
Type Of Standardized Relays (Part 2 Of 2)
Page 94
Page 8360
The top section of the tape (from which the backing sheet was peeled off in step 5) should be
placed so that it is pointing down toward the floor of the vehicle. The "unexposed" bottom section of
the tape should be pointing up toward the ceiling of the vehicle (see Figure 9A).
7. Pull on the top of the seat belt to roll the tape up and around the "D" ring (see Figure 9B).
^ The unexposed bottom section of the tape will be pulled through and hang over the top of the "D"
ring (see Figure 9B). Stop pulling when you see this.
8. As the top section of the adhesive-exposed tape rolls up to the "D" ring, center and smooth the
tape around the back side of the "D" ring (see Figure 9B above and Figure 10).
NOTE:
Once the fluorine resin tape is applied to the "D" ring, it cannot be repositioned. Take care to
properly attach the tape to the "D" ring. Center the tape correctly on the "D" ring and smoothly
apply it to the "D" ring surface in these procedural steps so that no wrinkles or ridges are present.
IMPORTANT:
Wrinkles or ridges in the tape may prevent the seat belt from moving smoothly through the "D" ring.
Replace the tape with a new piece if this should occur.
9. Run your finger over the surface of the newly applied tape to firmly apply it to the back side of
the "D" ring. Press down the edges of the tape, and smooth out any air bubbles or wrinkles (see
Figure 10).
10. Peel off the remaining, unexposed bottom section of the tape backing (see Figure 11A).
11. Carefully apply the tape around the remainder of the "D" ring. Take care to apply the tape so
that no wrinkles are present. Press down the edges of the tape (see Figure 11B).
Page 4466
Ground Distribution
Page 4078
Page 3143
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagrams
Page 6087
Ground Distribution
Page 9517
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Description and Operation
Page 4138
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5555
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6655
b. Remove retainer plates while holding spring.
c. Place mating surface of valve facedown, and remove internal parts.
- If a valve is hard to remove, lightly tap valve body with a soft hammer.
- Be careful not to drop or damage valves, sleeves, etc.
Valve Springs Inspection
- Measure free length and outer diameter of each valve spring. Also check for damage or
deformation.
Page 5362
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4971
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2153
Overall inspection sequence
Page 796
Throttle Position Sensor: Connector Views
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Diagram Information and Instructions
Vehicle Speed Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3703
13. Select Confirm
14. Select Diagnosis
15. Wait for ECM Diagnosis to complete.
Page 6412
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1643
Engine Oil: Fluid Type Specifications
Specified type
........................................................................................................................................................
API SG or SH and Energy Conserving II Alternate type ......................................................................
.............................................................................................................. API Certification Mark
Specified viscosity: All temperatures ...................................................................................................
............................................................................ SAE 5W-30 (preferred) Ambient temp above -18°C
(0°F) ....................................................................................................................................................
................. SAE 10W-30
Page 7318
Battery: Technical Service Bulletins Battery - Maintenance and Servicing
Classification: EL01-009
Reference: NTB01-019
Date: March 21,2001
ALL NISSAN VEHICLES BATTERY MAINTENANCE
APPLIED VEHICLES: All Nissan Vehicles
SERVICE INFORMATION
Low-maintenance batteries used in Nissan vehicles are not maintenance free and do require
periodic inspection and servicing. This is particularly true in areas with hot climates or for vehicles
with extended or extreme usage.
It is important to maintain proper electrolyte levels for optimum battery life. In many situations, the
electrolyte level in a battery may already be up to the appropriate mark. However, Nissan
recommends that a check of the electrolyte level be done at every scheduled maintenance interval
(oil changes, etc.) to verify that the level is correct. If the electrolyte level is low, it is necessary to
add distilled water to the battery to bring the level up to the correct height.
It is also important that the top of the battery is clean and terminal connections are clean and tight.
Nissan recommends that the top of the battery and case cover be cleaned and terminal
connections cleaned and tightened at each maintenance interval.
This bulletin provides important tips for Genuine Nissan Original Equipment (OEM) and
replacement battery maintenance. A procedure for checking battery electrolyte levels is provided
for batteries with black cases and batteries with white cases.
NOTE:
Although this bulletin specifically addresses procedures and tips for use on Genuine Nissan
batteries, the procedures provided can and should be applied to low-maintenance batteries of all
makes.
SERVICE PROCEDURE
WARNING:
Always wear eye protection and gloves when working with batteries. Do not allow battery fluid to
come in contact with skin, eyes, fabric, or painted surfaces. After touching a battery, do not touch
or rub your eyes until you have thoroughly washed your hands. If the battery acid contacts your
clothing or a painted surface, thoroughly wash the area immediately. If the battery acid contacts
your eyes or skin, immediately flush with water for 15 minutes and promptly seek medical attention.
1. To minimize self-discharging and prevent contamination of the electrolyte when removing the
cell plugs, use a disposable towel to clean any dirt or oil from the top and cover of the battery. The
surface of the battery should be clean and bright.
2. Check the battery electrolyte levels:
A. Batteries With Black Cases:
1) Remove the cell plugs using a suitable tool (a coin or screwdriver).
Page 1363
SPECIAL TOOLS
Page 2526
Description (Part 1 Of 2)
Page 805
Description (Part 1 Of 2)
Page 691
Optional Splice
Example Diagrams
Page 5406
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5833
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 9206
Ground Distribution
Page 299
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 6238
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3229
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4029
^ C-III PCMCIA Card Adapter is installed.
^ C-III Security Card is installed.
^ A screen print for Warranty documentation can be done from C-III during this process while still
cable-connected to the vehicle.
1. Use the USB cable to connect the Vehicle Interface (VI) to the C-III computer and then connect
the VI to the vehicle.
CAUTION
2. Connect the AC Adapter to the C-III computer.
CAUTION
3. Connect a battery charger to the vehicle battery:
For Conventional Vehicles
^ Set the battery charger at a low charge rate.
NOTE:
The GR-8 (Battery and Electrical Diagnostic Station) set to "Power Supply" mode is recommended.
CAUTION
For Hybrid Vehicles
^ Use the GR-8 Battery and Electrical Diagnostic Station.
^ If needed, refer to Hybrid Service TSBs for connecting the GR-8 to the Hybrid 12V battery.
Page 600
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8686
3. Install one-inch squares of 1/4-inch-thick, adhesive-backed foam tape (3M Scotch-foam" 4504 #
021200-03320 or equivalent) to the headliner panel near the sunroof opening. Place the one-inch
squares every five inches around the sunroof opening, 1/8 inch from the edge of the headliner
panel (see Figure 5).
4. Reinstall the sunroof weather strip.
5. Reinstall the sunroof panel and inner shade panel.
6. Road test the vehicle to confirm the incident noise is resolved.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 6117
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3816
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3159
Fuel Temperature Sensor: Connector Views
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 2538
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5235
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4509
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7941
Page 8988
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1552
Auto tensioner Inspection (if equipped)
1. With the engine running at idle and the AC turned ON, observe the pulley angular (side to side)
movement (see Example 1):
^ See above table for maximum movement specification.
^ Visual comparison of movement with a known good vehicle is recommended.
Page 7043
Torque Converter Clutch Solenoid: Testing and Inspection
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 3928
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6203
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 580
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4733
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3782
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3253
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 978
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8843
3. Install one-inch squares of 1/4-inch-thick, adhesive-backed foam tape (3M Scotch-foam" 4504 #
021200-03320 or equivalent) to the headliner panel near the sunroof opening. Place the one-inch
squares every five inches around the sunroof opening, 1/8 inch from the edge of the headliner
panel (see Figure 5).
4. Reinstall the sunroof weather strip.
5. Reinstall the sunroof panel and inner shade panel.
6. Road test the vehicle to confirm the incident noise is resolved.
CLAIMS INFORMATION Submit a Primary Failed Part (PP) claim using the claims coding as
shown.
Page 4766
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 3632
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1683
^ Do not introduce compressed air to any refrigerant container or refrigerant component, because
contamination will occur.
^ R-134a in the presence of oxygen and under pressure may form a combustible mixture.
Therefore, never introduce compressed air into any R-134a container, cylinder, A/C component,
recover/recycle equipment, or other service equipment. This includes "empty" containers.
Refrigerant Terminology
Please use the correct name or names when specifying refrigerants. The guidelines are listed
below:
^ Freon --> is a registered trademark of DuPont, and should only be used if referring to DuPont
R-12.
^ DuPont's trade name for R-134a (automotive use) is Suva-->Trans A/C.
^ When referring to refrigerants, the terms Freon-->and Suva--> should not be used as a general
reference. The proper terms are R-12 and R-134a
Comments regarding refrigerants:
^ R-12 and R-134a are not compatible with each other and should never be mixed, even in the
smallest amounts.
^ R-134a for automotive use has a special tank fitting size (1/2" - 16 ACME) which is compatible
with automotive service equipment
^ When purchasing R-134a, be certain that the fitting size on the tank is 1/2" - 16 ACME. This
thread size is easy to recognize by the square thread, as shown.
^ Although R-134a has no ozone depletion potential (ODP), it does have a slight global warming
potential (GWP). Due to this slight GWP, as well as its high cost, venting of R-134a into the air is
not recommended.
^ Recovery/recycling of R-134a will be required by U.S. Federal Law, Clean Air Act Amendments of
1990.
Page 5453
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Locations
Shift Interlock Solenoid: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 3722
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6636
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 851
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 1960
Valve Clearance: Service and Repair
CHECKING
Check valve clearance while engine is warm but not running.
1. Remove rocker cover and all spark plugs 2. Set No. 1 cylinder at TDC on its compression stroke
- Align pointer with TDC mark on crankshaft pulley.
- Check that valve lifters on No 1 cylinder are loose and valve lifters on No 4 are tight. If not, turn
crankshaft one revolution (360°) and align as above.
3. Check only those valves shown in the figure.
4. Using a feeler gauge, measure clearance between valve lifter and camshaft. Record any valve
clearance measurements which are out of
specification. They will be used later to determine the required replacement adjusting shim.
Valve clearance (Hot):
Intake: 0.31 - 0.39 mm (0.012 - 0.015 inch) Exhaust: 0.33 - 0.41 mm (0.013 - 0.016 inch)
5. Turn crankshaft one revolution (360°) and align mark on crankshaft pulley with pointer. 6. Check
those valves shown in the figure.
Page 5504
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8403
3. Insert the "D" ring cleaning wire under the seat belt; between the belt and the "D" ring (see
Figure 3).
^ The "D" ring cleaning wire is provided in the kit that's listed in the Parts Information.
4. Pull the wire back and forth across the surface of the "D" ring.
^ Make sure all residue is removed from the "D" ring in all areas where it contacts the seat belt
NOTE:
^ It is very important to remove all residue build-up from the "D" ring.
^ If you don't remove all residue build-up, the fluorine resin tape won't stick properly.
Page 6782
7. Install new plug seal to slide joint housing by lightly tapping it.
Apply sealant to mating surface of plug seal.
Wheel Side (ZF100)
1. Install new small boot band and boot on drive shaft.
Cover drive shaft serration with tape to prevent damaging boot during installation.
2. Set joint assembly onto drive shaft by lightly tapping it. Install joint assembly securely, ensuring
that marks which were made during
disassembly are properly aligned.
3. Pack drive shaft with specified amount of grease.
Specified amount of grease:
135 - 145 grams (4.76 - 5.11 ounce)
4. Make sure that the boot improperly installed on the drive shaft groove. Set the boot so that it
does not swell or deform when its length is "L2".
Length "L2": 96 - 98 mm (3.78 - 3.86 inch)
5. Lock new large boot band securely with a suitable tool.
6. Lock new small boot band.
INSTALLATION
Specifications
Page 9603
1. Remove the door finisher assembly.
2. Remove the door speaker (front door).
3. Remove the frame assembly (rear door).
4. Operate the power window main switch to raise/lower the door glass until the glass mounting
bolts can be seen.
5. Remove the glass mounting bolts.
6. Raise up the door glass and hold with a suction lifter.
7. Remove the mounting bolts, and remove the module assembly (front door).
8. Remove the door regulator assembly.
9. Disassemble the power window motor from the regulator.
NOTE:
These procedures are typical way for each type. The procedures differ according to model, so refer
to Service Manual for more detail.
If you also remove door glass, refer to Service Manual for procedures.
TYPE-C: DOOR SASHLESS + SEALING SCREEN TYPE (FR/RR)
Page 8492
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2773
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3203
^ Refer to Figure 2 that applies to your model.
^ There should be continuity across the terminals with the throttle closed.
NOTES:
^ An ohmmeter is used because CONSULT-II cannot display the CTPS status in all of the Applied
Vehicles.
^ This adjustment procedure must be made with the TPS installed on the engine of the vehicle.
^ Do not touch the throttle drum when checking the CTPS signal or continuity. Doing so may cause
an incorrect adjustment.
^ Nissan recommends using Kent-Moore TPS Connector Tool J-45178 for easy, accurate
connection. See NTB01-023 for more information.
4. Refer to Chart 1 and select the correct thickness feeler gauges for your vehicle.
5. Check "A":
Insert the thinner feeler gauge "A" (from Chart 1) between the throttle adjustment screw and the
throttle drum stop.
^ The CTPS should have continuity. (ohmmeter reads "0 ohms").
Page 297
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 6576
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2089
PART 2 OF 2
Page 9208
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 615
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7127
Brake Caliper: Specifications
Piston Cylinder Bore Diameter 1.685 in
No. Of Cylinders 2
Connecting Bolt 12 - 14 ft.lb
Bleeder Screw 61 - 78 in.lb
Main Pin Bolts 16 - 23 ft.lb
Torque Member Fixing Bolt 53 - 72 ft.lb
Page 2651
Crankshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 4476
Type Of Standardized Relays (Part 2 Of 2)
Page 7076
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4579
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Locations
Ignition Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 5943
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4797
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5763
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2493
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Front Heated Oxygen Sensor
Oxygen Sensor: Description and Operation Front Heated Oxygen Sensor
COMPONENT DESCRIPTION
The front heated oxygen sensor is placed into the exhaust manifold. It detects the amount of
oxygen in the exhaust gas compared to the outside air. The front heated oxygen sensor has a
closed- end tube made of ceramic zirconia. The zirconia generates voltage from approximately 1V
in richer conditions to 0V in leaner conditions. The front heated oxygen sensor signal is sent to the
ECM. The ECM adjusts the injection pulse duration to achieve the ideal air-fuel ratio. The ideal
air-fuel ratio occurs near the radical change from 1V to 0V.
Page 6333
21. When the screen in Figure 10 appears, ECM reprogramming is complete.
NOTE:
If you can't print the above screen:
a. Select the Print icon.
b. Select Save.
c. Select OK.
A copy of the screen is now saved in the Toughbook(R) PC.
NOTE:
If you saved a copy of the screen in Figure 10 and need to print it at a later date, you can find it in
the following file location:
At the bottom left corner of the computer screen click on Start.
Page 6157
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9456
Ground Distribution
Page 8576
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 5201
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5148
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 9345
5. Slide a one-inch piece of dual-wall heat shrink tubing (3M(TM) P/N 054007-55917 or equivalent)
onto each wire of the vehicle wire harness (see Figure 1a).
6. Connect each wire (of the replacement connector) to the vehicle wire harness making sure the
wires are correctly connected (i.e., no mis-matched wires). See Figure lb.
IMPORTANT:
Only use lead-free solder when performing step 7 below. Also, step 7 must be performed as stated
to avoid a "cold" solder joint (i.e., a joint that will not hold together).
7. Solder each wire connection joint as follows:
A. Place the soldering iron tip against the bottom side of the wire strands and heat the wires (see
Figure lb).
B. Once the wires are hot, apply the solder to the top side of the wire strands until they are fully
coated with melted solder (see Figure 1b).
8. After the soldered joint cools down, slide the heat shrink tubing over the soldered joint and heat
the tubing with a heat gun until it seals the joint (see Figure 1c).
IMPORTANT:
Each wire connection joint MUST be soldered and sealed with the heat shrink tubing due to the
high wire current and moisture in this location. DO NOT use Scotch-Loks (TM) or butt connectors
for splicing at this location.
Page 6187
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6940
Optional Splice
Example Diagrams
Page 4299
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3325
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 8435
3. Insert the "D" ring cleaning wire under the seat belt; between the belt and the "D" ring (see
Figure 3).
^ The "D" ring cleaning wire is provided in the kit that's listed in the Parts Information.
4. Pull the wire back and forth across the surface of the "D" ring.
^ Make sure all residue is removed from the "D" ring in all areas where it contacts the seat belt
NOTE:
^ It is very important to remove all residue build-up from the "D" ring.
^ If you don't remove all residue build-up, the fluorine resin tape won't stick properly.
Page 5070
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7124
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Page 5119
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 4643
BARO / MAP Sensor Switching Valve: Testing and Inspection
COMPONENT INSPECTION MAP/BARO Switch Solenoid Valve
With CONSULT
1. Start engine and warm it up to normal operating temperature. 2. Perform "MAP/BARO SWN" in
"ACTIVE TEST" mode with CONSULT. 3. Check the following.
- Condition: At idle under no-load
- CONSULT display
- Time for voltage to change
4. If NG, Check solenoid valve as shown below.
OR
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3788
Type Of Standardized Relays (Part 2 Of 2)
Page 4946
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7957
Page 7193
- Install all the parts by referring to the figures. After installing crank lever on back plate, make sure
that there is no play between crank lever and back plate. If play exists, adjust bolt (A) and lock nut
(B).
Page 1715
Circuit Breaker: Testing and Inspection
Circuit Breaker Inspection
For example, when current is 30 A, the circuit is broken within 8 to 20 seconds. Circuit breakers are
used in the following systems.
^ Power Window & Power door lock
^ Multi-remote Control System
^ Theft Warning System
^ Warning Chime (with power door locks)
^ Room lamp (with power door locks)
Diagram Information and Instructions
Transmission Position Switch/Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8591
Type Of Standardized Relays (Part 2 Of 2)
Page 3899
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 951
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1260
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4402
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor
COMPONENT DESCRIPTION
The rear heated oxygen sensor (rear HO2S), after three way catalyst, monitors the oxygen level in
the exhaust gas. Even if switching characteristics of the front heated oxygen sensor are shifted, the
air fuel ratio is controlled to stoichiometric by the signal from the rear heated oxygen sensor. This
sensor is made of ceramic zirconia. The zirconia generates voltage from approximately 1V in richer
conditions to 0V in leaner conditions. Under normal conditions the rear heated oxygen sensor is not
used for engine control operation.
Page 6743
Ring Gear: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Differential; Service and Repair.
Page 7244
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 3263
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 3432
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 1060
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4661
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1397
The steering wheel spokes are tilted to the left or right (see Figure 2) when driving straight ahead
on a straight flat road. Although the vehicle does not pull in either direction, the customer may
perceive that the vehicle pulls because it will respond if he or she tries to bring the steering wheel
back to center. This condition will occur if the toe-in is out of adjustment causing the tie rod length
to be uneven from side to side.
Wander
The vehicle has a tendency to drift to the right or left depending on road surface conditions.
Wander can occur as a result of too little caster (incorrect wheel alignment), steering rack Sliding
Force setting or incorrect road wheel offset. See figure 3
Pull When Braking
The vehicle consistently drifts to one side when the brakes are applied. This condition can occur as
a result of excessive play in suspension bushings or components, or because of uneven braking
force.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Service Procedure
1. Verify the condition by road testing the vehicle with the customer using the Steering Pull
Diagnosis and Repair procedure below.
2. Determine the specific pull condition based on the descriptions in the service information section
of this bulletin.
3. Perform the Preliminary Inspection outlined in this section of the bulletin.
Page 2799
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor
COMPONENT INSPECTION Rear Heated Oxygen Sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "FUEL INJECTION" in
"ACTIVE TEST" mode, and select "RR O2 SENSOR" as the monitor item with CONSULT. (3)
Check "RR O2 SENSOR" at idle speed when adjusting "FUEL INJECTION" to ±25%.
"RR O2 SENSOR" should be above 0.56V at least once when the "FUEL INJECTION" is +25%.
"RR O2 SENSOR" should be below 0.54V at least once when the "FUEL INJECTION" Is -25%.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (56) (sensor signal) and (32) (ECM ground). (3) Check the voltage when racing up
to 4,000 rpm under no load at least 10 times.
(Depress and release accelerator pedal as soon as possible.) The voltage should be above 0.56V
at least once. If the voltage is above 0.56V at step 3, step 4 is not necessary.
(4) Check the voltage when racing up to 5,000 rpm under no load. Or keep vehicle at idling for 10
minutes, then check the voltage. Or check the
voltage when coasting from 80 km/h (50 MPH) in 3rd gear position (M/T), D position with "OD" OFF
(A/T). The voltage should be below 0.54V at least once.
Page 7989
Wheel Bearing: Testing and Inspection Rear Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
Page 781
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6653
Disassembly
1. Remove valves at parallel pins.
- Do not use a magnetic pick-up tool.
Page 3008
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Air Bag Module - Air Bag Warning Lamp ON
Air Bag Harness: Customer Interest Air Bag Module - Air Bag Warning Lamp ON
Classification: RS99-007A
Reference: NTB99-065A
Date: December 5, 2000
FRONTIER AND XTERRA ASSIST AIR BAG MODULE OPEN CIRCUIT
ATTENTION: This bulletin amends NTB99-065. Information has been added to the Service
Information and Claims Information sections. Please discard all paper copies of NTB99-065.
APPLIED VEHICLES: 1998-2000 Frontier (D22) - Including Crew Cab 2000 Xterra (WD22)
SERVICE INFORMATION If the air bag indicator light on a 1998-2000 Frontier or 2000 Xterra
remains illuminated during normal driving conditions and the CONSULT screen indicates "Assist
A/B Module [Open]," use the following Service Procedure to verify and repair the condition.
NOTE:
This is the only authorized repair for this incident. DO NOT REPLACE the passenger air bag
module.
SERVICE PROCEDURE
1. Verify the air bag light is on.
2. Connect CONSULT to the data link connector.
3. Turn the ignition switch "ON".
4. Select "START" and "AIR BAG".
5. Check the Current and Past SELF-DIAG. Modes for trouble codes:
A. If "Assist A/B Module [Open]" is displayed, perform the procedure provided in Steps 6 through
18, below.
B. If any other diagnostic trouble code is displayed, diagnose and repair as outlined in the
appropriate Service Manual.
6. Record the radio presets.
7. Disconnect both cables of the vehicle battery. Allow the vehicle to sit with the battery
disconnected for at least 3 minutes before performing any further steps in the procedure.
WARNING:
For approximately 3 minutes after the battery cables are removed, it is still possible for the air bag
to deploy. Do not work on any air bag system connectors or wires until at least 3 minutes have
passed.
8. Remove the glove box assembly.
9. Remove the air bag connector clip from the housing on top of the glove box lid.
Page 4641
BARO / MAP Sensor Switching Valve: Electrical Diagrams
EC-SW/V-01 Manifold Absolute Pressure (MAP)/Barometric Pressure (BARO) Switch Solenoid
Valve (DTC: P1105)
WIRING DIAGRAM
Page 2650
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1208
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Locations
Door Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
SRS Component Parts Location
Component Parts And Harness Connector Location
Components Parts And Harness Connector Location
Oxygen Sensor - Thread Cleaning and Other Precautions
Catalytic Converter: All Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 3044
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Service and Repair
Axle Nut: Service and Repair
Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Auto Lock Free Running Hub
Specifications
Intake Air Temperature Sensor: Specifications
Resistance 2.1 - 2.9 K ohms at 68 deg F
0.27 - 0.38 K ohms at 176 deg F
Page 3848
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 950
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4320
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1089
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6719
Carrier Bearings: Specifications Rear Differential
Page 1182
Crankshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The crankshaft position sensor (OBD) is located on the transaxle housing facing the gear teeth
(cogs) of the flywheel or drive plate. It detects the fluctuation of the engine revolution. The sensor
consists of a permanent magnet, core and coil. When the engine is running, the high and low parts
of the teeth cause the gap with the sensor to change. The changing gap causes the magnetic field
near the sensor to change. Due to the changing magnetic field, the voltage from the sensor
changes. The ECM receives the voltage signal and detects the fluctuation of the engine revolution.
This sensor is not directly used to control the engine system. It is used only for the on board
diagnosis of misfire.
Page 3430
Optional Splice
Example Diagrams
Page 2243
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7731
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6066
Knock Sensor: Testing and Inspection
COMPONENT INSPECTION Knock sensor
- Use an ohmmeter which can measure more than 10 M ohms.
1. Disconnect knock sensor harness connector.
2. Check resistance between terminal (1) and ground.
Resistance: 500 - 620 K Ohms [at 25°C (77°F)]
CAUTION: Do not use any knock sensors that have been dropped or physically damaged. Use
only new ones.
Page 4566
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 666
Circuit Connectors
Response Monitoring
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Ignition - Distributor Rotor Replacement
Ignition Rotor: Technical Service Bulletins Ignition - Distributor Rotor Replacement
Classification: EC97-002a
Reference: NTB97-004a
Date: May 19, 1999
DISTRIBUTOR ROTOR REPLACEMENT
This amended version of NTB97-004 adds B14, D21, WD22, and L30 information to the Applied
Vehicles section. Please discard all paper copies of NTB97-004.
APPLIED VEHICLES: 1995-1999 Sentra (B14) - GA16DE Engine only 1995-1998 200SX (B14) GA16DE Engine only 1990-97 Truck (D21) - KA24 Engines only 1998-2000 Frontier (D22) KA24DE Engine only 1998-2000 Altima (L30) - All 2000 Xterra (WD22) - KA24DE Engine only
SERVICE INFORMATION Distributor rotors are now available as replacement parts for the
vehicles listed in the Applied Vehicles section of this bulletin. Order them as P/N 22157-4B000.
CAUTION:
The rotor hold-down screw securing the distributor rotor to the distributor shaft must be torqued to
32 +/- 3 in-lb (37 +/- 3 kg-cm). If not secured to the proper torque the rotor may come loose causing
the engine to stop without warning.
PARTS INFORMATION
Page 2938
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8323
Safing Sensor: Service and Repair
SRS Component Parts Location
Description
Safing Sensor
The Safing Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the Safing Sensor requires replacement of the Diagnosis Sensor Unit. Refer to
Diagnosis Sensor Unit / Service and Repair.
Page 5612
Optional Splice
Example Diagrams
Air Outlet
Air Door: Adjustments Air Outlet
Mode control cable
^ Turn mode control switch to DEF position. Set side link in DEF mode. Pull on outer cable in
direction of arrow and then clamp it.
^ After positioning mode control cable, check that it operates properly.
Page 4786
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4951
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1128
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5164
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8206
Specifications
Page 585
Intake Air Temperature Sensor: Description and Operation
COMPONENT DESCRIPTION
The intake air temperature sensor is mounted to the air duct housing. The sensor detects intake air
temperature and transmits a signal to the ECM. The temperature sensing unit uses a thermistor
which is sensitive to the change in temperature. Electrical resistance of the thermistor decreases in
response to the temperature rise.
Page 1285
Power Steering Pressure Switch: Description and Operation
COMPONENT DESCRIPTION
The power steering oil pressure switch is attached to the power steering high-pressure tube and
detects a power steering load. When a power steering load is detected, it signals the ECM. The
ECM adjusts the IACV-AAC valve to increase the idle speed and adjust for the increased load.
Page 4100
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7029
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 3736
Ground Distribution
Page 3541
Description (Part 1 Of 2)
Page 5506
Fuel Temperature Sensor: Connector Views
Tank Fuel Temperature Sensor (DTC: P0180)
Tank Fuel Temperature Sensor Circuit Connectors
Page 3435
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4884
4. Inspect the inside diameter of the solenoid bracket metal pipe (from EVAP canister) for
contamination or rust (see Figure 1).
A. If contamination or rust is present, replace the solenoid valve bracket and reconnect the vacuum
hoses.
B. If contamination or rust is not present, reconnect the vacuum hose and use the appropriate
section of the applicable service manual to diagnose
and repair the vehicle.
5. Ensure the wire harness connector and all hoses are properly connected to the purge volume
control valve.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Primary Failed Part (PP) line using the following claims coding:
For DTC P1440
OR
For DTC P1444
OR
For DTC P1491
Page 5271
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 6406
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 6260
Torque Converter Clutch Solenoid: Electrical Diagrams
EC-LKPU-01 Torque Converter Clutch Solenoid Valve (DTC: P1775)
Circuit Diagrams
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Page 8185
Page 4554
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4939
G. While looking into the hose end of the valve, touch "OFF" and confirm the air passage re-opens
fully and immediately (the valve should not stick closed).
H. Repeat steps F and G above to confirm the valve closes and re-opens consistently.
2. Confirm the sealing O-ring (for the valve) is:
^ Correctly positioned and is not damaged (see Figure 1)
^ Adequately lubricated with Texaco Canopus 13 mineral oil (P/N 999MP-AJ000)
3. Make sure the water separator and related hoses are not blocked by debris or insects.
NOTE:
If a Maxima, Truck or 240SX is not equipped with a water separator, refer to the TSB(s) in the table
above to install one.
CLAIMS INFORMATION
If applicable, submit a Primary Failed Part (PP) line claim using the claims coding:
For 1996-97 vehicles:
For 1998-later vehicles:
Page 8951
Warning Chime (Part 2 Of 2)
Models Without Power Door Locks Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 605
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1934
Main Bearing Cap Bolts Tightening Sequence
Connecting Rod
(1) Tighten to 14 to 16 Nm (1.4 to 1.6 kg-m, 10 to 12 ft. lbs.). (2) Tighten bolts 60 +5/-0 degrees
clockwise with an angle wrench.
GIf an angle wrench is not available, tighten them to 38 to 44 Nm (3.9 to 4.5 kg-m, 28 to 33 ft. lbs.)
Oil Pan
Page 7640
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1074
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 7066
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2870
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 2539
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1518
Valve Clearance: Service and Repair
CHECKING
Check valve clearance while engine is warm but not running.
1. Remove rocker cover and all spark plugs 2. Set No. 1 cylinder at TDC on its compression stroke
- Align pointer with TDC mark on crankshaft pulley.
- Check that valve lifters on No 1 cylinder are loose and valve lifters on No 4 are tight. If not, turn
crankshaft one revolution (360°) and align as above.
3. Check only those valves shown in the figure.
4. Using a feeler gauge, measure clearance between valve lifter and camshaft. Record any valve
clearance measurements which are out of
specification. They will be used later to determine the required replacement adjusting shim.
Valve clearance (Hot):
Intake: 0.31 - 0.39 mm (0.012 - 0.015 inch) Exhaust: 0.33 - 0.41 mm (0.013 - 0.016 inch)
5. Turn crankshaft one revolution (360°) and align mark on crankshaft pulley with pointer. 6. Check
those valves shown in the figure.
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Page 1005
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3211
Description (Part 1 Of 2)
Page 6620
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7729
Description (Part 1 Of 2)
Page 2654
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 669
EC-FRO2-01 Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Diagrams
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Page 2931
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2608
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4008
Power Steering Pressure Switch: Testing and Inspection
COMPONENT INSPECTION Power Steering Oil Pressure Switch
1. Disconnect power steering oil pressure switch harness connector then start engine.
2. Check continuity between terminal (1) and ground.
If NG, replace power steering oil pressure switch.
Page 6591
Torque Converter Clutch Solenoid: Testing and Inspection
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 4133
Optional Splice
Example Diagrams
Page 3179
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Brake Rotor/Disc: Technical Service Bulletins Brakes - Judder/Pedal Feel/Noise Diagnosis/Repair
Classification: BR00-004d
Reference: NTB00-033d
Date: August 8, 2007
ALL NISSAN; BRAKE NOISE/JUDDER/PEDAL FEEL DIAGNOSIS AND REPAIR
This bulletin has been amended. The Applied Vehicles have been updated. Please discard all
previous versions of this bulletin.
APPLIED VEHICLE(S): All Nissan
SERVICE INFORMATION
^ This bulletin is to assist you in responding to customer questions about brake operation, and
provides diagnostic and repair information for each item listed, if any should occur.
^ Most brake incidents fall into the following categories:
a. Brake Noise: A squeak, squeal, clunk, or groan that occurs when the brakes are applied or
released.
b. Brake Judder: A vibration that can be felt in the vehicle, steering wheel or brake pedal when the
brakes are applied.
c. Pedal Feel: The effort needed to operate the brakes is too high or too low.
SERVICE PROCEDURE
1. Verify the condition by road testing the vehicle with the customer.
2. Determine the specific brake incident based on the description in the Service Information above.
3. Follow the appropriate repair procedure(s), shown below, for your specific incident.
BRAKE NOISE
^ Brakes can make a range of noises when applied or released. Some noises are normal and no
repair action should be taken.
^ Use the following descriptions to identify the specific type of brake noise and the appropriate
repair:
Squeak noise when the brakes are cold:
^ Usually occurs during the first few stops in the morning.
^ This is a normal condition. No service action is necessary.
Squeak noise with the brakes at normal operating temperatures:
^ Refer to technical bulletins specific to the model of vehicle regarding this incident.
^ If there are no bulletins for the car you are working on, install OE type pads using the information
listed under Brake Service shown in this bulletin and the appropriate Service Manual procedures.
Notes about brake pads and brake noise:
Original Equipment (OE) brake pads are installed on all current Nissan vehicles at the factory.
^ The OE pads use a Non-asbestos Organic (NAO) compound. The NAO material provides state of
the art resistance to squeal noise.
^ These pads are available as service parts and must be used if replacing brake pads under the
terms of the Nissan new car warranty.
Key Value brake pads are also available as a high quality service replacement part at a very
attractive price.
Page 1770
TRANSFER CASE DIAGNOSTIC TABLE
Page 5820
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2777
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 470
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2468
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3549
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
MIL - Icon Changed to Service Engine Soon
Malfunction Indicator Lamp: Technical Service Bulletins MIL - Icon Changed to Service Engine
Soon
Classification: EC96-011
Reference: NTB96-094
Date: October 2, 1996
MALFUNCTION INDICATOR LIGHT (MIL) CHANGE
APPLIED VEHICLES: All 1997 Vehicles (except 1997.5 Altima)
APPLIED DATES: Various
SERVICE INFORMATION
Beginning with 1997 model year vehicles, the MIL icon in the instrument panel will be changed.
The new icon will read "SERVICE ENGINE SOON".
Page 3484
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 820
Ground Distribution
Page 8125
When servicing the A/C refrigeration loop, refer to the charts (Figure 2 and 3) to identify the correct
0-ring type. The charts list both NEW and FORMER 0-ring types and illustrates the 0-rings in
full-scale size.
IMPORTANT POINTS
^ There is NO interchangeability between NEW and FORMER connection type 0-rings. Improper
use will cause refrigerant leaks. Therefore, the correct type 0-ring must be used with each
application.
^ Nissan vehicles requiring A/C 0-ring replacement should be checked for proper 0-ring part
numbers through the applicable parts microfiche.
^ Insure correct 0-ring installation onto tube (see Figure 1).
Page 5732
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7150
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Page 4629
Ground Distribution
Page 3850
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 3805
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2861
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5902
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Mechanical Specifications
Steering Gear: Mechanical Specifications
SERVICE SPECIFICATIONS
Backlash [3] .........................................................................................................................................
................................... 0 - 0.1 mm (0 - 0.004 inch) End Play [1] ..........................................................
.............................................................................................................. less than 0.1 mm (0.004
inch) Turning Torque:
360° From Straight Ahead
.................................................................................................................................... 0.15 - 0.78 Nm
(1.3 - 6.9 inch lbs.) As Compared To Above
..................................................................................................................................... 0.25 - 1.32 Nm
(2.2 - 11.7 inch lbs.) Maximum
............................................................................................................................................................
1.03 - 1.47 Nm (9.1 - 13.0 inch lbs.)
Turns Of Steering Wheel (Lock-To-Lock) ............................................................................................
........................................................................ 3.4 Steering Gear Ratio ..............................................
.......................................................................................................................................................
15:1 Steering Wheel Turning Force [2]
...................................................................................................................................................... 39
N (9 lbs.) or less
TIGHTENING SPECIFICATIONS
Gear Housing to Frame
..........................................................................................................................................................
84 - 96 Nm (62 - 71 ft. lbs.) Rear Housing Bolts ..................................................................................
.............................................................................. 56 - 64 Nm (41 - 47 ft. lbs.) Sector Shaft Cover
Bolts
........................................................................................................................................................ 56
- 64 Nm (41 - 47 ft. lbs.) Sector Shaft Cover Lock Nut
................................................................................................................................................. 29 - 44
Nm (22 - 33 ft. lbs.) Sector Shaft to Pitman Arm Nut
..................................................................................................................................... 235 - 265 Nm
(174 - 195 ft. lbs.) Lower Joint to Stub Shaft
....................................................................................................................................................... 24
- 29 Nm (17 - 22 ft. lbs.)
[1]: At sector shaft end in neutral position. [2]: At 360° from neutral position and circumference of
steering wheel. [3]: At pitman arm top end (in straight ahead position).
Page 2239
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1044
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8783
When washing any vehicle, it must be out of direct sunlight and the painted surfaces should be cool
to the touch.
WATER SPOTTING REPAIR PROCEDURE
The method of repairing a water spotted finish varies with the severity (depth of spot in finish) of the
spotting. After a thorough washing, perform the following:
1. Water spots on light colored vehicles and some vehicles which have had minimal exposure to
the elements can be repaired by buffing. First, apply a fine cutting compound using an orbital buffer
to remove a thin layer of the top coat or clear coat. After removal of the spots, buff with glazing
compound to remove the fine scratches.
2. More severe spotting can be removed with a coarser cutting compound followed by finer
compound and glazing compound to remove the scratches.
3. The most severe water spots on clear coated, dark vehicles can be repaired by wet sanding the
affected areas with 1200 grit sandpaper to prepare the surface then spraying a fresh clear coat on
those areas. Non-clear coated vehicles should be repairable with either step 1 or 2.
* Available through Dyment Distribution Services.
Page 5287
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1520
7. Determine replacement adjusting shim size as follows.
a. Using a micrometer determine thickness of removed shim. b. Calculate thickness of new
adjusting shim so valve clearance comes within specified values.
R = Thickness of removed shim N = Thickness of new shim M = Measured valve clearance
Intake & Exhaust: N = R + [M - 0.37 mm (0.0146 inch)]
Shims are available in thicknesses from 1.96 mm (0.0772 inch) to 2.68 mm (0.1055 in), in steps of
0.02 mm (0.0008 inch).
c. Select new shim with thickness as close as possible to calculated value.
8. Install new shim using a suitable tool.
- Install with the surface on which the thickness is stamped facing down.
9. Place Tool (A) as mentioned in steps 2 and 3.
10. Remove Tool (B). 11. Remove Tool (A). 12. Recheck valve clearance.
Page 3169
Description (Part 1 Of 2)
Page 8062
Blower Motor: Testing and Inspection Electrical Components Inspection
Confirm smooth rotation of the blower motor.
- Check that there are no foreign particles inside the intake unit.
Page 4365
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2758
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3529
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7871
REMOVAL
Page 6614
Description (Part 1 Of 2)
Page 8772
Finish Kare products are marketed by mobile distributors which will deliver the product directly to
your dealership. If a Finish Kare distributor is not located in your area, Finish Kare can be
contacted at the number above for direct shipment from their national office.
Page 111
13. Select Confirm
14. Select Diagnosis
15. Wait for ECM Diagnosis to complete.
Page 1426
^ DO NOT push/pull on the tire to perform the caster sweep.
7. Make sure the steering wheel is centered when performing toe-in measurements and
adjustments.
NOTE:
If you are using a Hunter alignment machine equipped with the WinToe(R)-Adjustment System:
^ There is no need to lock the steering wheel. The WinToe(R) system is not affected by steering
system movement during the adjustment process.
^ Bumping the tire or re-centering the steering wheel when adjusting "near frozen" tie rods is not
necessary. This makes the adjustment process faster
and easier.
^ WinToe(R) eliminates the effect of lash in the steering system.
If you are using a John Bean alignment machine equipped with EZ Toe:
^ There is no need to lock the steering wheel. The EZ Toe system is not affected by steering
system movement during the adjustment process.
^ This software routine is an improved method of setting front toe, making it easier to obtain a
centered steering wheel.
^ With EZ Toe, it is possible to adjust toe with the steering wheel turned at any angle left or right.
This is helpful when setting toe on engine wall
mounted rack and pinion units.
IMPORTANT:
If during the alignment process the vehicle was lifted off of the rack; after lowering, make sure to
jounce (bounce) the vehicle before confirming adjustments are correct.
After you have checked and adjusted vehicle alignment
8. Print the BEFORE and AFTER measurements and attach them to the Repair Order.
9. Road test the vehicle to make sure the steering wheel is "centered" when driving on a straight
flat road.
Page 8985
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3817
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5572
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9462
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 535
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 6401
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 2949
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Page 8406
^ Latch and unlatch it. Allow it to retract back into the retractor mechanism several times.
14. Repeat steps 1 through 13 on the remaining front seat belt.
Page 1300
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9274
Description (Part 1 Of 2)
Adjustments
Air/Fuel Mixture: Adjustments
PREPARATION
- Make sure that the following parts are in good order.
(1) Battery (2) Ignition system (3) Engine oil and coolant levels (4) Fuses (5) ECM harness
connector (6) Vacuum hoses (7) Air intake system
(Oil filler cap, oil level gauge, etc.)
(8) Fuel pressure (9) Engine compression
(10) EGR valve operation (11) Throttle valve (12) EVAP system
- On models equipped with air conditioner, checks should be carried out while the air conditioner is
"OFF".
- On models equipped with automatic transaxle, when checking idle speed, ignition timing and
mixture ratio, checks should be carried out while shift lever is in "N" position.
- When measuring "CO" percentage, insert probe more than 40cm (15.7 in) into tail pipe.
- Turn off head lamps, heater blower.
- Keep front wheels pointed straight ahead.
Page 7065
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1570
Use the Diagnosis/Repair Flow Chart shown to determine the diagnosis and repair of the vehicle.
Low Hose Visual and Leak Detector Inspection
Low Hose Visual Inspection
Page 4590
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3289
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5652
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9388
Headlamp: Description and Operation System Description (For USA)
The headlamps are controlled by the lighting switch which is built into the combination switch.
Power is supplied at all times:
^ to lighting switch terminal (5)
^ through 15 A fuse (No. [37], located in the fuse and fusible link box), and
^ to lighting switch terminal (8)
^ through 15 A fuse (No. [38], located in the fuse and fusible link box).
Low beam operation When the lighting switch is turned to headlamp "ON" (2ND) position, "LOW
BEAM" (B), power is supplied:
^ from lighting switch terminal (10)
^ to terminal (D) of the LH headlamp, and
^ from lighting switch terminal (7)
^ to terminal (D) of the RH headlamp.
Terminal (E) of each headlamp supplies ground through body grounds (E12) and (E54). With
power and ground supplied, the headlamp(s) will illuminate.
High beam operation/flash-to-pass operation When the lighting switch is turned to headlamp "ON"
(2ND) position, "HIGH BEAM" (A) or "FLASH TO PASS" (C) position, power is supplied:
^ from lighting switch terminal (6)
^ to terminal (M) of RH headlamp, and
^ from lighting switch terminal (9)
^ to terminal (M) of LH headlamp, and
^ to combination meter terminal (17) for the high beam indicator.
Ground is supplied to terminal (16) of the combination meter through body grounds (M14) and
(M68).
Terminal (E) of each headlamp supplies ground through body grounds (E12) and (E54).
With power and ground supplied, the high beams and the high beam indicator illuminate.
Theft warning system The theft warning system will flash the high beams if the system is triggered.
Page 707
Ground Distribution
Page 6657
- Be careful not to scratch or damage valve body.
- Wrap a small screwdriver with vinyl tape and use it to insert the valves into proper position.
Accumulator Control Plug
- Align protrusion of accumulator control sleeve with notch in plug.
- Align parallel pin groove in plug with parallel pin, and install accumulator control valve.
2. Install parallel pins and retainer plates.
- While pushing plug, install parallel pin.
- Insert retainer plate while pushing spring.
Control Valve Lower Body
Page 6295
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 711
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Engine - Drive Belt Noise Diagnosis
Drive Belt: All Technical Service Bulletins Engine - Drive Belt Noise Diagnosis
Classification: EM09-013
Reference: NTB10-002
Date: January 12, 2010
DRIVE BELT SYSTEM NOISE DIAGNOSIS
APPLIED VEHICLES All Nissan
IF YOU CONFIRM
There is noise coming from the drive belt(s), or drive belt pulley(s),
ACTION
Use the flow chart in this bulletin to help diagnose and identify the source / cause of the noise.
CLAIMS INFORMATION
Refer to the current Nissan Warranty Flat Rate Manual and use the indicated claims coding for any
repairs performed.
Page 6633
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 908
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3981
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6053
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1932
Rocker Cover
Camshaft Brackets
Page 9355
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5259
EGR Temperature Sensor: Electrical Diagrams
EC-EGR/TS-01 EGR Temperature Sensor (DTC: P1401)
Circuit Diagrams
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 3011
Type Of Standardized Relays (Part 2 Of 2)
Page 660
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1404
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 8936
Ground Distribution
Page 4243
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6759
Page 2987
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6174
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4435
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 6186
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Specifications
Synchronizer Ring: Specifications
CLEARANCE BETWEEN BAULK RING AND GEAR
2nd BAULK RING (4WD MODEL)
Page 402
Absolute Pressure Sensor: Description and Operation
COMPONENT DESCRIPTION
The absolute pressure sensor is connected to the MAP/BARO switch solenoid valve by a hose.
The sensor detects ambient barometric pressure and intake manifold pressure and sends the
voltage signal to the ECM. As the pressure increases, the voltage rises.
Specifications
Flywheel: Specifications
Torque .................................................................................................................................................
............................... 142 - 152 Nm (105 - 112 ft. lbs.)
Page 1183
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 1777
Page 6048
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4651
Description (Part 1 Of 2)
Page 811
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8678
C. Remove the sunroof panel by lifting the panel so that it stands straight up, then slide it toward
the drivers side to release it from the hinge brackets (see Figure 3). Place the sunroof panel in a
safe place until it is reinstalled.
2. Remove the sunroof weather strip from the vehicle body (see Figure 4).
Page 3446
Ground Distribution
Page 4143
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3328
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6426
Torque Converter Clutch Control Valve
1. Disassemble torque converter clutch control valve assembly. 2. Check torque converter clutch
control valve.
- Valve, and sleeve slide along valve bore under their own weight.
- Valve, and sleeve are tree from burrs, dents and scratches.
- Control valve springs are free from damage, deformation and fatigue.
- Hydraulic line is tree from obstacles.
3. If NG, replace torque converter clutch control valve.
Page 5762
Description (Part 1 Of 2)
Page 9547
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6100
Ignition Control Module: Description and Operation
COMPONENT DESCRIPTION Ignition Coil & Power Transistor
The ignition signal from the ECM is sent to the power transistor. The power transistor switches on
and off the ignition coil primary circuit. As the primary circuit is turned on and off, the proper high
voltage is induced in the coil secondary circuit.
Page 4619
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9094
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 6264
Without Scan Tools
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Stop the vehicle, turn ignition switch "OFF", wait at least 5 seconds and then turn "ON" (4)
Perform "Diagnostic Test Mode II (Self-diagnostic results)" with ECM.
DIAGNOSTIC PROCEDURE
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Page 3445
Ground Distribution
Page 5484
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1272
Ground Distribution
Page 4546
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5104
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8319
Impact Sensor: Service and Repair Crash Zone Sensor
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact. - Check crash
zone sensor for proper installation. Make sure that there are no deformities, dents, cracks or rust. If
there are any visible signs of damage,
replace the crash zone sensor.
- Check crash zone sensor bracket to ensure that it is free of deformities and rust.
Removal Of Crash Zone Sensor
1. Disconnect driver and passenger air bag module connectors. 2. Remove front grille. 3.
Disconnect crash zone sensor connector. 4. Using the TAMPER RESISTANT TORX (Size T50),
remove the three special bolts. The crash zone sensor can then be removed.
NOTE:
- To install, reverse removal procedure. - After replacement, perform Self-diagnosis for SRS. Refer
to "SRS Operation Check".
Page 6172
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3491
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 2606
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Testing and Inspection
System Relay: Testing and Inspection
Check circuit continuity between terminals by supplying 12 Volts to coil side terminals of air
conditioner relay.
Page 4984
5. Install the new hose between the vent control valve and the metal breather tube (see Figure 5).
6. Reinstall the spare tire.
7. If equipped, reinstall the bedliner.
PARTS INFORMATION
CLAIMS INFORMATION
Page 2937
Transmission Position Switch/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 827
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 5703
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2127
Page 7858
Suspension Strut / Shock Absorber: Specifications Rear
TIGHTENING SPECIFICATIONS
Mounting Bolts .....................................................................................................................................
................................. 40 - 50 Nm (30 - 37 ft. lbs.)
Page 8832
Engine Compartment
Engine Compartment
Page 1064
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 571
Ground Distribution
Page 826
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 3513
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6867
Drive/Propeller Shaft: Service and Repair
REMOVAL AND INSTALLATION
1. Place matching marks on flanges, then separate propeller shaft from final drive.
2. Remove propeller shaft.
- Insert plug into rear oil seal after removing rear propeller shaft.
INSPECTION
- Inspect propeller shaft runout. If runout exceeds the limit, replace propeller shaft assembly.
Runout limit: 0.6 mm (0.024 inch)
- Inspect journal axial play. If play exceeds the limit, replace propeller shaft assembly.
Journal axial play: 0.02 mm (0-0008 inch) or less
Page 6575
Torque Converter Clutch Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 424
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5822
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5029
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9191
Optional Splice
Example Diagrams
Page 9378
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 458
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5080
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Thermal Control Amp. Inspection
Control Module HVAC: Testing and Inspection Thermal Control Amp. Inspection
1. Run engine, and operate A/C system. 2. Connect the voltmeter from harness side. 3. Check
thermo control amp. operation shown in the table.
Page 6993
Seals and Gaskets: Service and Repair Transfer Case Output Shaft Seal
CENTER CASE OIL SEAL
1. Remove front propeller shaft. 2. Remove companion flange nut.
3. Remove companion flange.
4. Remove center case oil seal. 5. Install center case oil seal.
- Before installing, apply multi-purpose grease to seal lip.
6. Install companion flange.
7. Tighten companion flange nut.
226 - 324 Nm (23 - 33 kg.m, 166 - 239 ft. lbs.)
8. Install front propeller shaft.
Page 1597
Brake Fluid: Service and Repair
CAUTION:
^ Refill with new brake fluid DOT 3.
^ Always keep fluid level higher than minimum line on reservoir tank.
^ Never reuse drained brake fluid.
^ Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on painted areas, wash it away with water immediately.
CHANGING BRAKE FLUID
1. Clean inside of reservoir tank, and refill with new brake fluid.
2. Connect a vinyl tube to each air bleeder valve. 3. Drain brake fluid from each air bleeder valve
by depressing brake pedal. 4. Refill until brake fluid comes out of each air bleeder valve. Use same
procedure as in bleeding hydraulic system to refill brake fluid. Refer to
Bleeding Brake System.
Page 659
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5246
Ground Distribution
Page 2235
Ground Distribution
Page 5615
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5906
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6367
Torque Converter Clutch Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1796
Wheels: Technical Service Bulletins Wheels - Chrome Wheel Handling When Mounting Tires
Classification: WT06-002
Reference: NTB06-076
Date: November 7, 2006
PRECAUTIONS FOR HANDLING CHROME TYPE WHEELS
APPLIED VEHICLE: All Nissan vehicles with chrome type wheels
SERVICE INFORMATION
The appearance of chrome type wheels can be damaged if they are not handled correctly during
wheel and tire service.
Tire Changing:
^ Make sure to use tire changing equipment that clamps (secures) the wheel from the inside
(internal jaws).
^ Do not use any metal tools that may touch the outside of the wheel.
^ Tools and machine equipment that touch the outside of the rim should be made of plastic, or
have rubber/plastic protective covers.
Wheel Balancing:
Page 7721
^ Pay attention to the direction of rotor.
^ When assembling vanes to rotor, rounded surfaces of vanes must face cam ring side.
^ Insert pin (2) into pin groove (1) of front housing and front side plate. Then install cam ring (3) as
shown.
Cam ring: D1, is less than D2
Page 4000
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6164
Ground Distribution
Diagram Information and Instructions
Backup Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3112
Ground Distribution
Page 2461
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1172
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 3685
Service and Repair
Vacuum Brake Booster Check Valve: Service and Repair
REPLACEMENT
CAUTION: When installing vacuum hoses, pay attention to the following points.
^ Do not apply any oil or lubricants to vacuum hose and check valve.
^ Insert vacuum tube into vacuum hose as shown.
^ Install check valve, paying attention to its direction.
INSPECTION
Hoses And Connectors Check vacuum lines, connections and check valve for airtightness improper attachment chafing
and deterioration.
Check Valve
- Check vacuum with a vacuum pump. Connect to booster side: Vacuum should exist.
- Connect to engine side: Vacuum should not exist.
Page 1270
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7588
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
Page 5168
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 3726
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3029
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7645
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6328
8. Select the detected VI from the list. (See Figure 1.)
9. Select Connect. (See Figure 1.)
10. Wait for the "Checking the firmware version" message to clear.
11. Select ECM reprogramming / Programming (see Figure 2).
12. Select Select.
Page 6630
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 433
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 916
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5586
Idle Up Control Valve: Testing and Inspection
COMPONENT DESCRIPTION
When the air conditioner is on, the IACV-FICD solenoid valve supplies additional air to adjust to the
increased load.
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 2781
Circuit Connectors
Response Monitoring
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 6775
11. Remove wheel bearing assembly.
INSPECTION
Axle Shaft Check axle shaft for straightness, cracks, damage, wear and distortion. Replace if necessary.
Wheel Bearing Make sure wheel bearing rolls freely and is free from noise, cracks, pitting and wear.
Axle Case Check axle case for yield, deformation and cracks. Replace if necessary.
INSTALLATION
1. Press new wheel bearing until it bottoms end face of bearing cage.
Maximum load P: 78 kN (8.8 US ton)
NOTE: Always press outer race of wheel bearing during installation.
2. Press new grease seal until it bottoms end face of bearing cage.
NOTE: After installing new grease seal, coat sealing lip with multipurpose grease.
Page 1840
Page 3273
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 7128
Page 3382
Page 1309
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7779
2. Install new teflon ring on worm gear assembly. Make sure that teflon ring is seated in correct
position.
3. Install new O-ring into rear housing.
4. Install worm gear assembly with rear housing into the gear housing.
CAUTION: ^
Apply a thin coat of ATF inside gear housing and piston before insertion.
^ Be careful not to damage teflon ring at piston end when inserting worm gear assembly into gear
housing.
5. Gradually tighten rear housing bolts in a cries-cross fashion.
Page 7529
^ Center the front wheels on the turn plates.
^ Chock the left rear wheel.
Preliminary Checks:
3. Perform pre-alignment checks.
^ Tire condition (wear, partial wear, flaws, etc.)
^ Road wheel condition (damage and deformation)
^ Tire pressure
^ Inspect for visible damage to any suspension components
^ Wheel bearing axial play
^ Ball joints of suspension arms
^ Shock absorber operation and visual check for oil leakage
^ Condition of axle and suspension (check for bushing cracks and slack)
^ Vehicle weight
> Empty - no cargo, luggage, or passengers
> Fuel level is full
Page 1418
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
4. Make sure the "turn plates" and "slide" plates are in good working order:
^ The surface of the front turn plates must be level with (the same height as) the rack surface.
If height is not the same; have the equipment repaired before performing any alignments.
^ Make sure the front turn plates:
> Do not wobble (no up/down movement).
> Operate (slide and turn) smoothly in all directions.
If there is any issue with the turn plate operation - have the equipment repaired before performing
any alignments.
Page 8579
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 7216
3. Install all parts and secure all bolts.
CAUTION: ^
Refill with new brake fluid DOT 3.
^ Never reuse drained brake fluid.
4. Bleed air.
Paint - Removal of Environmental Particles
Paint: All Technical Service Bulletins Paint - Removal of Environmental Particles
Classification: BT01-048a
Reference: NTB01-087a
Date: December 17, 2001
ALL NISSAN; REMOVAL OF ENVIRONMENTAL IRON PARTICLES FROM PAINT
This bulletin has been revised. The Claims Information was updated. Please discard paper copies
NTB01-087.
APPLIED VEHICLE: All Nissan Vehicles
SERVICE INFORMATION
Environmental iron particles can be identified as follows:
^ Small rust/orange dots with black centers on light colored surfaces,
^ Small white or silver dots with a "rainbow hue" around the edge on dark colored surfaces.
In both cases, the surface will feel rough or gritty to the touch.
The steps in the Service Procedure have been found effective in most cases for removing
environmental iron particles (sometimes called "rail dust") from a vehicle's painted surfaces.
Refer to the Service Procedure of this bulletin for instructions on repairing this type of
environmental damage if it should occur. However, refer to the Claims Information section at the
end of this bulletin for important claims information concerning environmental claims.
SERVICE PROCEDURE
CAUTION:
In most cases these environmental iron particles can be easily removed. However, the longer they
are left untreated, the more damage they can create, and the harder they are to remove. In rare,
more severe cases, spots of paint blistering can occur.
1. Use a magnifying glass to check if iron particles are present.
2. Wash the vehicle with soap and warm water. Completely dry the vehicle.
Note:
There are 3 Steps of damage repair possible that should be completed in the order given.
^ Start with Step A first. Complete Step B if necessary.
^ Proceed to Step C only if iron particles are not removed in the preceding steps.
3. Repair the paint damage.
A. Light/Medium Damage (surface level only)
Remove the iron particles using a clay bar such as Clay Magic(TM) by Auto Wax Company, Inc.,
SPC40 Overspray Clay by PPG, a "clay like" surface cleaning material such as Erazer(TM) by
K.E.L. Mfg., or equivalent.
WARNING:
Read and follow the manufacturer's procedure before using.
B. Medium Damage (surface level only)
Remove the iron particles using a chemical cleaning product such as:
Page 2561
Description (Part 1 Of 2)
Recall 98V064000: A/T Shift Lever Can Come Loose
Shifter A/T: Recalls Recall 98V064000: A/T Shift Lever Can Come Loose
Year: 1998 Make: NISSAN TRUCK Model: FRONTIER Year of Recall: '98 Type of Report: Vehicle
Potential Number of Units Affected: 3000 Summary:
Vehicle Description: Light duty passenger trucks equipped with automatic transmissions. A
securing pin inside the automatic transmission control device assembly can come loose allowing
the shift lever to be inadvertently moved out of the Park position with the key in the ignition.
This could result in a crash if the parking brake is not engaged.
Dealers will inspect the automatic transmission control device assembly and replace it if necessary.
Owner notification is expected to begin during April 1998. Owners who take their vehicles to an
authorized dealer on an agreed upon service date and do not receive the free remedy within a
reasonable time should contact Nissan at 1-800-NISSAN-1 (1-800-647-7261). Also contact the
National Highway Traffic Safety Administration's Auto Safety Hotline at 1-888-DASH-2-DOT
(1-888-327-4236).
Wheels/Tires - Tire Mounting Information
Tires: All Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7352
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7976
Wheels: Technical Service Bulletins Wheels - Chrome Wheel Handling When Mounting Tires
Classification: WT06-002
Reference: NTB06-076
Date: November 7, 2006
PRECAUTIONS FOR HANDLING CHROME TYPE WHEELS
APPLIED VEHICLE: All Nissan vehicles with chrome type wheels
SERVICE INFORMATION
The appearance of chrome type wheels can be damaged if they are not handled correctly during
wheel and tire service.
Tire Changing:
^ Make sure to use tire changing equipment that clamps (secures) the wheel from the inside
(internal jaws).
^ Do not use any metal tools that may touch the outside of the wheel.
^ Tools and machine equipment that touch the outside of the rim should be made of plastic, or
have rubber/plastic protective covers.
Wheel Balancing:
Specifications
Hydraulic Control Assembly - Antilock Brakes: Specifications
TIGHTENING SPECIFICATIONS
Horizontal Mounting Nuts
.......................................................................................................................................... 10.8 - 14.7
Nm (96 - 132 inch lbs.) Vertical Mounting Bolts
................................................................................................................................................ 17.7 23.5 Nm (13 - 17.4 ft. lbs.)
Locations
Absolute Pressure Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 5087
Type Of Standardized Relays (Part 2 Of 2)
Page 4451
Description (Part 1 Of 2)
Page 3712
40. Operate the ignition as shown in Figure 19.
NOTE:
For Hybrid vehicles, ignition ON = dash warning lights ON and the "READY" light OFF.
^ The above ignition cycle will reset ECM self learned Data.
41a. For Hybrid vehicles, skip to step 42.
41b. Start the engine and check the idle speed.
^ If idle speed is too low, perform Idle Air Volume Learning (IAVL). See the appropriate Service
Manual (ESM) for this procedure.
NOTE:
If the engine will not idle, hold the engine RPM at about 2000, then slowly bring it down to an idle.
IAVL can now be performed.
42. Test drive the vehicle; make sure it is operating correctly and the Check Engine light is OFF.
^ If the Check Engine light comes ON; diagnosis, repair, and erase DTCs.
Page 8819
on the towel to avoid scratching the paint with any loosened iron particles.
3. Apply Finish Kare # 883 directly from the bottle using the applicator provided. Keep the affected
areas wet for 5 minutes and allow the solution to lift the particles. Agitate gently, but do not rub as
this will scratch the color coat or clear coat of paint. Reapply # 883 to spots which start to dry
before rinsing
CAUTION:
Do not exceed the 5 minute soak time as this solution may damage the paint or trim.
4. Rinse thoroughly with tap water, dry and inspect the surface.
5. Reapply # 883 as often as needed to remove more difficult spots.
6. When all iron particles are removed, wash with Finish Kare # 118SC (Neutralizer and Shampoo)
and rinse thoroughly. Gently dry with a fresh towel. Do not use towels used in the above steps, as
they may have iron particles in the nap and could scratch the color coat or clear coat.
F. Inspect For Damage Severity
After washing and iron particle/chemical removal are performed on the test section, inspect the
surface to determine the severity of damage. Levels 2 and 3 are determined using abrasive
removal on test sections on each affected panel.
Examine the vehicle in both strong sunlight and/or indoor fluorescent lighting (inspection is easier
with a hand held 500 watt halogen lamp and a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is easily done with an 8X
and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Level 1 No damage, the contamination did not penetrate the paint surface and washed off using
the detergent and water and the iron particle remover.
Level 2 Minor damage, the contamination did not penetrate more than 0.5 mil of the color coat or
clear coat. Abrasive cleaning will resolve.
Level 3 Substantial damage, the contamination penetrated more than 0.5 mil of the color coat or
clear coat. Re-color and clear coat is necessary
G. Abrasive Cleaning
IMPORTANT:
All iron particles and acids must be removed and the surface neutralized with the above procedure
before proceeding. Iron particles and acids which remain will not be fully removed by abrasive
cleaning. Small amounts of contamination will wick moisture into the clear coat or through a
re-color/clear coat and cause blistering
The goal of abrasive cleaning is to remove the damaged layer of color coat or clear coat (up to 0.5
mil in thickness) using the least abrasive process. The steps below demonstrate the sequence of
operations to use on the test section to identify the severity of damage and the repair needed.
1. Measure paint film thickness.
2. Polish and evaluate. If OK Polish all affected surfaces. If NG go to step 3.
Also determine film thickness removed.
3. Buff and evaluate. If OK Buff and then polish all If NG go to step 4.
affected surfaces.
Also determine film thickness removed
4. Wet sand and evaluate. If OK wet sand then buff and If NG go to step 5.
polish affected surfaces
Also determine film thickness removed.
5. Re-clear/color coat after neutralizing surfaces.
6. Apply color coat and clear coat if damage is completely through clear coat
NOTE:
Polishing to remove buffing or swirl marks requires a foam finishing pad on a dual action sander.
Page 4806
Vehicle Speed Sensor: Electrical Diagrams
EC-VSS-01 Vehicle Speed Sensor (VSS) (DTC: P0500)
Circuit Diagrams
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor Circuit (VSS) Connectors
Page 8097
Control Module HVAC: Testing and Inspection Thermo Control Amp. Check
POWER SUPPLY CIRCUIT CHECK
Check power supply circuit for thermo control amp. with ignition switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect voltmeter from harness side. 3.
Measure voltage across terminal (1) and body ground.
GROUND CIRCUIT CHECK
Check body ground circuit for thermo control amp. with ignition switch ON, air conditioner switch
ON and fan switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect ohmmeter from harness side. 3.
Check for continuity between terminal No. (2) and body ground.
If the ground circuit is NG, check the following.
- A/C switch
- Fan switch
- Harness for open or short between thermo control amp. and A/C switch
- Harness for open or short between A/C switch and fan switch
- Fan switch ground circuit.
Page 2204
Refer to the "Essential Tool Shipment" flyer shown for additional information.
This special tool is "Essential" and was automatically sent to all Nissan dealers.
Additional tools can be ordered from Tech-Mate (1-800-662-2001) for $196.43 each.
SERVICE PROCEDURE
Refer to the Operating Instructions supplied with the tool for complete refill procedure.
Key points to ensure the cooling system is purged of air bubbles are as follows;
Always start with an Empty Radiator
For step 2 of the Operating Instructions:
^ To hold the coolant mixture supply, use a clean bucket or other suitable container that is larger
than the cooling system's total capacity.
^ The amount of coolant mixture in the refill supply must be more than needed to fill the system
completely.
Page 8084
Compressor Clutch: Service and Repair
REMOVAL
- When removing center bolt, hold clutch disc with clutch disc wrench.
- Remove the drive plate using the clutch disc puller. Insert holder's three pins into the drive plate.
Rotate the holder clockwise to hook it onto the plate. Then, tighten the center bolt to remove the
drive plate. While tightening the center bolt, insert a round bar (screwdriver, etc.) between two of
the pins (as shown in the figure) to prevent drive plate rotation. After removing the drive plate,
remove the shims from either the drive shaft or the drive plate.
- Remove the snap ring using external snap ring pliers.
- For pulley removal use pulley puller. Use a commercially available pulley puller. Position the
center of the puller on the end of the drive shaft. Remove the pulley assembly with the puller.
For Pressed Pulleys:
Page 4064
Ground Distribution
Page 7369
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2107
Page 576
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1063
Type Of Standardized Relays (Part 2 Of 2)
Page 700
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2697
Intake Air Temperature Sensor: Connector Views
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7548
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Page 6099
Ignition Control Module: Electrical Diagrams
WIRING DIAGRAM
Page 4355
Oxygen Sensor: Specifications
For FRONT or REAR Heated Oxygen Sensors.
Resistance 2.3 - 4.3 ohms at 77 deg F
Page 8739
Ground Distribution
Page 5471
Service Manual for Refueling Control Valve inspection procedures.
8. If the DTC confirmation is still NG after step 7, or the vehicle is not equipped with ORVR, do the
following:
a. Disconnect two (2) lines from the Vacuum Cut Valve. One that goes to the fuel tank and one that
goes to the EVAP Canister (see figure 1).
b. Use a hand vacuum pump to check each of the two (2) disconnected hoses for free flow. Make
sure they are clear into the fuel tank (vent line) and into the EVAP Canister (see figure 2).
NOTE:
^ Figure 2 includes ORVR system. Refer to the appropriate service manual to determine if your
vehicle has ORVR or not.
^ The lines between the Vacuum Cut Valve and Fuel Tank, and between the Vacuum Cut Valve
and EVAP Canister may go through a metal
line. Make sure the lines are clear between the Vacuum Cut Valve and Fuel Tank, and between the
Vacuum Cut Valve and EVAP Canister, including any metal lines.
c. If any blockage is found, determine the cause and repair as necessary. Blockage in either of
these lines will cause a DTC.
9. If all of the above checks do not locate the source of the incident, refer to the appropriate Service
Manual for further DTC P1491 diagnosis.
Page 7614
Maximum .............................................................................................................................................
.................................................... 2°40' (2.67°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
King Pin Inclination
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
............................................... 10°18' (10.30°) Nominal ......................................................................
......................................................................................................................... 10°48' (10.80°)
Maximum .............................................................................................................................................
................................................ 11°18' (11.30°)
Toe-In
GENERAL SPECIFICATIONS
Allowable Limit (With Radial Tire):
Angle (Left + Right)
Minimum: 15' (0.25°) Nominal: 20' (0.33°) Maximum: 25' (0.42°)
Distance (A - B)
Minimum: 3 mm (0.12 inch) Nominal: 4 mm (0.16 inch) Maximum: 5 mm (0.20 inch)
Turning Angle Specifications
GENERAL SPECIFICATIONS
P235/70R14:
Inside:
Minimum ..............................................................................................................................................
........................................ 31° 00' (31.00°) Nominal ............................................................................
............................................................................................................ 33° 00' (33.00°) Maximum ......
..............................................................................................................................................................
.................. 33° 00' (33.00°)
Outside (Full Turn) [1]:
Minimum ..............................................................................................................................................
........................................ 29° 00' (29.00°) Nominal ............................................................................
............................................................................................................ 31° 00' (31.00°) Maximum ......
..............................................................................................................................................................
.................. 31° 00' (31.00°)
Except P235/70R14:
Inside:
Minimum ..............................................................................................................................................
........................................ 33° 06' (33.10°) Nominal ............................................................................
............................................................................................................ 35° 06' (35.10°) Maximum ......
..............................................................................................................................................................
.................. 35° 06' (35.10°)
Outside (Full Turn) [1]:
Minimum ..............................................................................................................................................
........................................ 31° 12' (31.20°) Nominal ............................................................................
............................................................................................................ 33° 12' (33.20°) Maximum ......
..............................................................................................................................................................
.................. 33° 12' (33.20°)
[1]:On power steering models, wheel turning force, (at circumference of steering wheel) of 98 - 147
N (22 - 33 lbs.) with engine at idle.
Vehicle Ride Height
DIMENSIONS
Page 2084
b. Install new crankshaft seal in front cover (see Figure 4).
c. Apply a continuous bead of RTV sealant to the front cover (see Figure 5).
NOTE:
Use Genuine Nissan RTV silicone sealant P/N 999MP-A7007, Three Bond P/N TB1207D or
equivalent.
c. Also place RTV sealant on the head gasket surface.
d. Install the front cover to the engine.
6. Install oil strainer and oil pan, referring to "Installation" in the "OIL PAN" section of the Service
Manual.
7. Install the oil pump and distributor drive shaft.
Page 9424
License Plate Lamp: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3088
Leak Detection Sensor: Description and Operation
COMPONENT DESCRIPTION
The EVAP control system pressure sensor detects pressure in the purge line. The sensor output
voltage to the ECM increases as pressure increases. The EVAP control system pressure sensor is
not used to control the engine system. It is used only for on board diagnosis.
Diagram Information and Instructions
Brake Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6376
Torque Converter Clutch Solenoid: Connector Views
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6086
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2297
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 1216
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 385
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4958
Ground Distribution
Page 2208
Coolant: Fluid Type Specifications
Specified type: [1]
..................................................................................................................................................
Ethylene glycol base anti-freeze/coolant
[1] 50% mix of anti-freeze/coolant and soft water.
Page 440
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 5971
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7534
^ DO NOT push/pull on the tire to perform the caster sweep.
7. Make sure the steering wheel is centered when performing toe-in measurements and
adjustments.
NOTE:
If you are using a Hunter alignment machine equipped with the WinToe(R)-Adjustment System:
^ There is no need to lock the steering wheel. The WinToe(R) system is not affected by steering
system movement during the adjustment process.
^ Bumping the tire or re-centering the steering wheel when adjusting "near frozen" tie rods is not
necessary. This makes the adjustment process faster
and easier.
^ WinToe(R) eliminates the effect of lash in the steering system.
If you are using a John Bean alignment machine equipped with EZ Toe:
^ There is no need to lock the steering wheel. The EZ Toe system is not affected by steering
system movement during the adjustment process.
^ This software routine is an improved method of setting front toe, making it easier to obtain a
centered steering wheel.
^ With EZ Toe, it is possible to adjust toe with the steering wheel turned at any angle left or right.
This is helpful when setting toe on engine wall
mounted rack and pinion units.
IMPORTANT:
If during the alignment process the vehicle was lifted off of the rack; after lowering, make sure to
jounce (bounce) the vehicle before confirming adjustments are correct.
After you have checked and adjusted vehicle alignment
8. Print the BEFORE and AFTER measurements and attach them to the Repair Order.
9. Road test the vehicle to make sure the steering wheel is "centered" when driving on a straight
flat road.
Locations
Headlamp (Plastic) - Cloudy/Hazy Appearance
Headlamp: All Technical Service Bulletins Headlamp (Plastic) - Cloudy/Hazy Appearance
Classification: ELO2-005
Reference: NTB02-053
Date: May 3, 2002
PLASTIC HEADLAMP LENS CLEANER
APPLIED VEHICLES: All Nissan vehicles with plastic headlamp lenses
SERVICE INFORMATION
This bulletin introduces 3M Plastic Polish(TM) # 39010, which should be used to clean and polish
headlamps with cloudy, hazy, or other poor appearance.
SERVICE PROCEDURE
Use 3M Plastic Polish(TM) (# 39010) to polish the headlamp lens(es) as follows:
1. Remove any dust, dirt, or debris from the headlamp lens using a soft damp cloth.
2. Dispense a quarter-size drop of 3M Plastic Polish(TM) onto a clean, dry, soft, cotton terry cloth
towel (see Figure 1a).
3. Apply the polish to the lens using a firm, circular motion (see Figure 1b).
4. Rub until dry.
5. Use a clean, dry section of cloth to remove the haze.
6. Repeat as necessary.
NOTES:
^ Material Safety Data Sheets (MSDS) for 3M Plastic Polish(TM) # 39010 are available via fax or
email by calling 3M's 24-hour "3M Helps" Customer Service line at 1-800-364-3577 OR (651)
737-6501.
^ This 3M product can be locally sourced through the following distributors:
R.S. Hughes - 1-877-774-8443 Granger Industrial Supplies - 1-800-323-0620
Page 544
Type Of Standardized Relays (Part 2 Of 2)
Page 8189
Comments regarding tubes and hoses:
^ Some R-134a tubes and hoses have reversed male/female connections to prevent
interchangeability with R-12 components.
R134A Service Tools & Equipment
^ R-12 and R-134a require separate and non-interchangeable sets of recovery, recycle, and
recharge equipment, because the refrigerants and lubricants are not compatible and cannot be
mixed even in the smallest amounts.
^ DO NOT attempt to use one set of equipment for both R-12 and R-134a, as all equipment
contains residual amounts of refrigerant and/or lubricant,
Page 7157
1. Before using the rotor driving unit ensure that all lug nuts are installed on the lugs (including the
lugs not used for the lug adaptor). All lug nuts
should be evenly torqued, to at least 40 ft/lbs. Do not over-tighten the lug nuts as damage may
occur to the lug adaptor legs.
2. To prevent chatter and ensure a smooth rotor finish, install the largest and heaviest silencer
band possible around the outside diameter of the rotor.
ROTOR CUTTING Before engaging the cutting tool, ensure the following:
1. Using the dial indicator, measure rotor/hub run-out prior to resurfacing rotor and adjust cutting
depth to eliminate this run-out. Each cut may be
between 0.05 mm and 0.25 mm (0.002" and 0.010"). Additional cuts may be necessary to eliminate
all the run-out.
2. Using a micrometer, measure rotor thickness in at least 8 even locations around the rotor. Do
not cut below the minimum rotor thickness
specification. Replace rotor if the run-out cannot be eliminated without exceeding the minimum
rotor thickness specification.
3. After rotor resurfacing is completed, measure the rotor/hub run-out using a dial indicator. Ensure
that the run-out is below the specification for the
vehicle. If run-out is not within specifications, turn the rotors again. Properly machined rotors will
have almost zero run-out (.001" or less) with no measurable thickness variation.
CAUTION: When using an on the car brake lathe, be sure to prevent metal shavings from
contacting or collecting on the ABS wheel speed sensor. Remove any shavings that stick to the
ABS wheel speed sensor's magnet.
NOTE: If the rotor must be removed for cleaning and/or other purposes after resurfacing with an on
the car brake lathe is complete, mark its exact location on the axle prior to removal. Incorrect
alignment during reinstallation will cause the run-out to change, possibly exceeding specifications.
This could require the rotor to be turned again.
4. Do not smooth the rotor surface with sand paper or other abrasive material.
Page 4928
Type Of Standardized Relays (Part 2 Of 2)
Page 7474
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4326
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 7616
Alignment: Service and Repair
Page 7920
Wheel Hub (Locking): Diagrams
Page 4580
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 899
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2630
ECCS Component Parts Location
ECCS Component Parts Location
Page 1721
Component Parts And Harness Connector Location
Locations
Keyless Entry Relay: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 7656
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9546
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7413
Engine Compartment
Engine Compartment
Page 9520
Ground Distribution
Page 3210
Optional Splice
Example Diagrams
Page 2991
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1319
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7576
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
Page 4727
Optional Splice
Example Diagrams
Page 9137
Ground Distribution
Page 4696
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 5774
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5480
Description (Part 1 Of 2)
Page 8776
on the towel to avoid scratching the paint with any loosened iron particles.
3. Apply Finish Kare # 883 directly from the bottle using the applicator provided. Keep the affected
areas wet for 5 minutes and allow the solution to lift the particles. Agitate gently, but do not rub as
this will scratch the color coat or clear coat of paint. Reapply # 883 to spots which start to dry
before rinsing
CAUTION:
Do not exceed the 5 minute soak time as this solution may damage the paint or trim.
4. Rinse thoroughly with tap water, dry and inspect the surface.
5. Reapply # 883 as often as needed to remove more difficult spots.
6. When all iron particles are removed, wash with Finish Kare # 118SC (Neutralizer and Shampoo)
and rinse thoroughly. Gently dry with a fresh towel. Do not use towels used in the above steps, as
they may have iron particles in the nap and could scratch the color coat or clear coat.
F. Inspect For Damage Severity
After washing and iron particle/chemical removal are performed on the test section, inspect the
surface to determine the severity of damage. Levels 2 and 3 are determined using abrasive
removal on test sections on each affected panel.
Examine the vehicle in both strong sunlight and/or indoor fluorescent lighting (inspection is easier
with a hand held 500 watt halogen lamp and a hand held fluorescent lamp) to identify which type of
contamination may be affecting the vehicle. Magnified viewing of spots is easily done with an 8X
and 30X illuminated magnifier from Radio Shack (catalog no. 63-851).
Level 1 No damage, the contamination did not penetrate the paint surface and washed off using
the detergent and water and the iron particle remover.
Level 2 Minor damage, the contamination did not penetrate more than 0.5 mil of the color coat or
clear coat. Abrasive cleaning will resolve.
Level 3 Substantial damage, the contamination penetrated more than 0.5 mil of the color coat or
clear coat. Re-color and clear coat is necessary
G. Abrasive Cleaning
IMPORTANT:
All iron particles and acids must be removed and the surface neutralized with the above procedure
before proceeding. Iron particles and acids which remain will not be fully removed by abrasive
cleaning. Small amounts of contamination will wick moisture into the clear coat or through a
re-color/clear coat and cause blistering
The goal of abrasive cleaning is to remove the damaged layer of color coat or clear coat (up to 0.5
mil in thickness) using the least abrasive process. The steps below demonstrate the sequence of
operations to use on the test section to identify the severity of damage and the repair needed.
1. Measure paint film thickness.
2. Polish and evaluate. If OK Polish all affected surfaces. If NG go to step 3.
Also determine film thickness removed.
3. Buff and evaluate. If OK Buff and then polish all If NG go to step 4.
affected surfaces.
Also determine film thickness removed
4. Wet sand and evaluate. If OK wet sand then buff and If NG go to step 5.
polish affected surfaces
Also determine film thickness removed.
5. Re-clear/color coat after neutralizing surfaces.
6. Apply color coat and clear coat if damage is completely through clear coat
NOTE:
Polishing to remove buffing or swirl marks requires a foam finishing pad on a dual action sander.
Page 2384
Engine Control Module: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 5588
EC-FICD-01 IACV-FICD Solenoid Valve
WIRING DIAGRAM
COMPONENT INSPECTION IACV-FICD Solenoid Valve
Disconnect IACV-FICD solenoid valve harness connector.
- Check for clicking sound when applying 12V direct current to terminals.
Page 98
Page 6881
Page 8437
8. As the tape rolls up to the "D" ring, center and smooth the tape around the back side of the "D"
ring. Press the bubbles and wrinkles out with your fingers (see Figure 7).
9. Peel off the remaining tape backing (see Figure 8A).
10. Carefully apply the tape around the remainder of the "D" ring. Press down the edges and make
sure there are no wrinkles (see Figure 8B).
11. Pull the seat belt back and forth against the tape-covered "D" ring to ensure that the tape is
firmly applied (see Figure 9).
12. Remove the binder clip from the seat belt.
13. Confirm the seat belt moves smoothly and quickly through the "D" ring.
Page 1343
Page 1572
2. Disconnect the A/C low hose from the A/C compressor and from the A/C low pipe coming from
the evaporator (see Figure 2).
3. Remove the clip from the support bracket (see Figure 2).
4. Remove the old hose from the vehicle.
5. Apply Nissan A/C system oil "Type R" (P/N: KLH00-PAGR0) to the 0-ring on the compressor end
of the new hose and to the 0-ring on the existing A/C low pipe (coming from the evaporator).
NOTE:
If it is necessary to replace the 0-ring on either the new A/C low hose or the existing low pipe, use
the correct 0-ring specified for "Captured 0-ring" type A/C connections (0-ring P/N: 92473-N8210).
6. Install the compressor end of the new A/C low hose to the compressor (see Figure 2) and tighten
the mounting bolt to 14 - 18 N.m (1.4 - 1.8 kg-m, 10 - 13 ft-lb).
7. Install the other end of the A/C low hose to the existing A/C low pipe so that the hose is
positioned between 0° and 5° relative to the horizontal plane (see Figure 3). Tighten the joint
connection nut to 20 - 29 N.m (2.0 - 3.0 kg-m, 14 - 22 ft-lb).
CAUTION:
Page 5683
Optional Splice
Example Diagrams
Page 1701
Refrigerant Oil: Fluid Type Specifications TYPE
TYPE
PAG TYPE PAG PART NUMBER
R KLH00-PAGR1 or R2
Page 224
Diagnosis Sensor Unit: Service and Repair
Description
CAUTION:
- Before servicing SRS, turn the ignition switch OFF, disconnect both battery cables and wait at
least 3 minutes. - The special bolts are coated with bonding agent while the other bolt is for ground.
Do not use old bolts after removal; replace with new coated bolts. - Check air bag diagnosis sensor
unit for proper installation. Make sure that there are no deformities, dents, cracks or rust. If there
are any visible signs
of damage, replace with a new one.
- Check air bag diagnosis sensor unit brackets to ensure they are free of deformities and rust. Replace air bag diagnosis sensor unit if it has been dropped or sustained an impact.
Removal Of Diagnosis Sensor Unit
1. Disconnect driver and passenger air bag module connectors. 2. Remove console box. 3.
Disconnect air bag diagnosis sensor unit connector. 4. Remove bolts from air bag diagnosis sensor
unit. Use TAMPER RESISTANT TORX (Size T5O) to remove special bolts. 5. Remove the air bag
diagnosis sensor unit.
To install, reverse the removal procedure.
After replacement, perform self-diagnosis for SRS. Refer to "SRS Operation Check".
CAUTION: Air bag diagnosis sensor unit must always be installed with forward mark "<=" pointing
towards the front of the vehicle for proper operation. Also check air bag diagnosis sensor unit for
cracks deformities and rust before installation and replace as required.
Page 3343
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Campaign - A/C Hose Replacement
Technical Service Bulletin # 98-064 Date: 980908
Campaign - A/C Hose Replacement
Reference: NTB98-064
Date: September 8, 1998
VOLUNTARY SERVICE CAMPAIGN 1998 FRONTIER POOR OR NO A/C COOLING DUE TO A/C
LOW HOSE CRACKING
CAMPAIGN I.D. # P8163
APPLIED VEHICLE: All 1998 Frontier (D22) built before VIN # 1N6DD2***WC387655
INTRODUCTION
Some 1998 Frontiers may develop refrigerant leaks in the vehicle's air conditioner lower return
hose due to vibration. To ensure customer satisfaction and prevent any future inconvenience,
Nissan has initiated a Voluntary Service Campaign to install a bracket on the lower return hose of
the air conditioning system to minimize this vibration.
IDENTIFICATION NUMBER
Nissan has assigned identification number P8163 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this Campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
The number of vehicles potentially affected is approximately 90,000.
DEALER RESPONSIBILITY
It is a dealer responsibility to check (with SERVICE-COMM) each vehicle falling within the range of
this service campaign which for any reason enters the service department. This includes vehicles
purchased from your dealership, other Nissan dealerships, private parties, or vehicles presented by
transient (tourist) owners and vehicles in dealer inventory.
A list of affected customers in your area will be sent to Nissan regional offices for distribution to
Nissan dealers once all of the customer notification letters have been sent. This list will assist you
in identifying those vehicles involved in this service campaign. Each dealership service department
is encouraged to contact these vehicle owners to have the required inspections and repairs
completed on their vehicle.
CUSTOMER FOCUS
Maintaining a strong customer relationship throughout the Frontier Air Conditioner Lower Return
Hose Campaign is one of the key goals of NMC. Each and every action taken by Nissan and the
servicing dealer will have a significant impact in retaining current Frontier owners as future
customers.
Page 1157
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4369
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6566
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Service and Repair
Heater Core: Service and Repair
REMOVAL
1. Drain the cooling system. 2. Disconnect the two heater hoses from inside the engine
compartment. 3. Remove the cooling unit.
a. Evacuate the A/C system using refrigerant recovery equipment. b. Disconnect the two refrigerant
lines from the engine compartment.
- Cap the A/C lines to prevent moisture from entering the system.
c. Remove the glove box and mating trim d. Disconnect the thermal amplifier connector. e. Remove
the cooling unit.
4. Remove the steering member assembly.
5. Remove the heater unit. 6. Remove the heater core.
INSTALLATION
Installation is basically the reverse order of removal. Refill the cooling system.
- Recharge the A/C system.
Page 7649
Power Steering Pressure Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5894
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4717
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 3657
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Specifications
Suspension Spring ( Coil / Leaf ): Specifications
TIGHTENING SPECIFICATIONS
Mounting Nuts:
Front ....................................................................................................................................................
....................... 118 - 147 Nm (87 - 108 ft. lbs.) Rear ...........................................................................
....................................................................................................... 78 - 98 Nm (58 - 72 ft. lbs.)
Spring Pad ...........................................................................................................................................
................................. 98 - 108 Nm (72 - 80 ft. lbs.) Torque Arrester Bolts
............................................................................................................................................................
16 - 22 Nm (12 - 16 ft. lbs.)
Page 3737
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 7849
A strut which is leaking and needs to be replaced will exhibit a substantial amount of oil around the
exterior body of the strut. The oil layer will extend below the spring seat (dish), will be thick, contain
large pieces of dust and debris, and will saturate the strut rod (see Figure 1).
2. Strut Seepage (Considered Normal/Does Not Affect Operation and Performance) - Strut Does
Not Need to be Replaced:
A strut which is seeping will exhibit a thin layer of oil stain on the exterior body of the strut. The oil
stain will not usually extend beyond the spring seat (dish) but may extend past the spring seat
under conditions such as changes in ambient temperature or driving conditions. The oil stain will
not be thick nor will it contain dust or debris (see Figure 1).
Page 3924
Optional Splice
Example Diagrams
Page 3062
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5047
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 990
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3891
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7658
Power Steering Pressure Switch: Connector Views
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 5139
Optional Splice
Example Diagrams
Page 617
Type Of Standardized Relays (Part 2 Of 2)
Page 193
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7886
10. Measure starting force "A" at wheel hub bolt.
11. Install lock washer by tightening the lock nut within 15 to 30 degrees.
12. Turn wheel hub several times in both directions to seat wheel bearing correctly.
13. Measure starting force "B" at wheel hub bolt. Refer to step 10. 14. Wheel bearing preload "C"
can be calculated as shown below.
C = B - A Wheel bearing preload "C": 7.06 - 20.99 N (1.59 - 4.72 lbs.)
15. Repeat steps 3 through 14 until correct axial end play and wheel bearing preload are obtained.
16. Tighten screws to 1.2 - 1.8 Nm (10.4 - 15.6 inch lbs.).
17. Install free running hub.
Page 1368
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
4. Make sure the "turn plates" and "slide" plates are in good working order:
^ The surface of the front turn plates must be level with (the same height as) the rack surface.
If height is not the same; have the equipment repaired before performing any alignments.
^ Make sure the front turn plates:
> Do not wobble (no up/down movement).
> Operate (slide and turn) smoothly in all directions.
If there is any issue with the turn plate operation - have the equipment repaired before performing
any alignments.
Page 1706
Brake Bleeding: Service and Repair
CAUTION:
^ Carefully monitor brake fluid level at master cylinder during bleeding operation.
^ If master cylinder is suspected to have air inside, bleed air from master cylinder first.
^ Fill reservoir with new brake fluid DOT 3. Make sure it is full at all times while bleeding air out of
system.
^ Place a container under master cylinder to avoid spillage of brake fluid.
^ Turn ignition switch OFF and disconnect ABS actuator and electric unit connector or battery
cable.
^ Bleed air in the following order: a. Load Sensing Valve (LSV) air bleeder (Models equipped with
LSV) b. Left rear brake c. Right rear brake d. Left front brake e. Right front brake f.
ABS actuator and electric unit
1. Connect a transparent vinyl tube to air bleeder valve. 2. Fully depress brake pedal several times.
3. With brake pedal depressed, open air bleeder valve to release air. 4. Close air bleeder valve. 5.
Release brake pedal slowly. 6. Repeat steps 2 through 5 until clear brake fluid comes out of air
bleeder valve. 7. Tighten air bleeder to 7 - 9 Nm (61 - 78 inch lbs.)
Page 8358
CAUTION:
Do not use pliers to squeeze or compress the button halves together. This can scratch and/or
damage the button.
7. Using water pump pliers, tighten the adjustable wrench. Compress the button to approximately
0.2 in. (5.4-5.8 mm) thickness (see Figure 4).
8. Make sure the center pin of the button is securely crimped to hold the other half of the button in
place (see Figure 2).
9. Confirm that the seat belt latch plate cannot slide past the button and it is held at shoulder height
when the seatbelt is retracted.
NOTE:
When this incident occurs, both front driver's and passenger's seat belt "D" rings must be cleaned
and "refurbished" (renewed) using the following procedural steps.
Clean "D" Ring, Install Fluorine Resin Tape
NOTE:
For 1996-99 Pathfinders built before December, 1998, see bulletin NTB00-003 for additional front
seat belt retractor assembly information.
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 5).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 5).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
3. Insert the "D" ring cleaning wire (provided in the kit listed in the PARTS INFORMATION section
of this bulletin) under the seat belt, between the belt and the "D" ring (see Figure 6).
Page 5122
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 4339
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6953
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4271
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 2412
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2301
Thermostat: Service and Repair
- Be careful not to spill coolant over engine
REMOVAL
1. Drain coolant from engine. 2. Remove air cleaner and air duct assembly. 3. Remove water hose
from water inlet housing. 4. Remove water inlet housing, then take out thermostat.
INSPECTION
1. Check valve seating condition at normal room temperature. It should seat tightly.
2. Check valve opening temperature and valve lift. 3. Then check if valve closes at 5° C (9° F)
below valve opening temperature.
INSTALLATION
1. Use a scraper to remove old liquid gasket from water inlet.
- Also remove traces of liquid gasket from mating surface of front cover.
2. Apply a continuous bead of liquid gasket to mating surface of water inlet.
- Use Genuine RTV Silicone Sealant Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Steering - Pull/Drift
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Page 8620
Tape Player: Technical Service Bulletins Audio - Cassette Tape Player Maintenance
Classification: EL90-002
Reference: NTB90-044
Date: May 24, 1990
CASSETTE TAPE PLAYER MAINTENANCE
APPLIED VEHICLE(S) All Nissan vehicles equipped with a cassette tape player
SERVICE INFORMATION The playback head, capstan, and roller will attract dirt or residues from
the tape material each time a cassette is played. This causes a deterioration of sound quality (i.e.
distortion, reduced frequency response, and reduced clarity/fullness). If residues and dirt are not
removed, loss of channel(s) or tape continuity (also referred to as: "tape eating") may occur.
SERVICE PROCEDURE To ensure the optimum performance from a cassette tape player, the
following Periodic Maintenance guidelines should be observed: ^
Clean the cassette tape player (specifically, the tape head and capstan rollers) after 10 hours of
play or once a month (whichever occurs first).
^ Use a cassette cleaning kit (such as: Nissan Cassette Deck Cleaning System, P/N 999U2-A7000
or equivalent), being careful to follow the kit manufacturer's instructions.
Additionally, the following Cassette Tape Care guidelines should be observed: ^
Before turning off the radio, eject the cassette being played. Leaving the tape mechanism stopped
while a tape is engaged can damage the tape, pinch roller, or capstan. Use tapes which are 90
minutes or less in play time.
^ Store cassette tapes properly, when not in use;
1. Use protective plastic case to prevent tape from unwinding and accumulating dust.
2. Protect tapes from extreme heat, direct sun light, and extreme cold. After turning off the radio, do
not leave the tape in the cassette door pathway.
Remove it to allow the tape slot door to close and keep out airborne dirt.
^ Do not use tapes that are more than 5 years old. Older tapes suffer from stretch and increased
tape head residue.
The preceding information should be given to the customer at the time of vehicle purchase (Sales
Department) and during vehicle servicing (Service Department).
Page 8357
3. Slide the seat belt latch plate to a position higher than the button position (i.e., between the
button location and the shoulder anchor loop). See Figure 2.
4. Find the original button position (hole). Then insert the button half (with the center pin) into the
belt. Go in from the plastic side of the latch plate (see Figure 2).
5. On the opposite side of the belt (on the metal side of the latch plate) fit the button half with the
hole over the protruding pin (see Figure 2 & 3).
6. Use an adjustable wrench with smooth jaws. Place it as shown in Figure 4, then finger tighten
the jaws.
Page 3738
Engine Control Module: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Mechanical Specifications
Axle Shaft: Mechanical Specifications
DIMENSIONS
Drive Shaft Axial End Play
................................................................................................................................................ 0.45
mm (0.0177 inch) or less Shaft Diameter ............................................................................................
..................................................................................... 29.0 mm (1.142 inch)
TIGHTENING SPECIFICATIONS
Slide Joint Housing ..............................................................................................................................
.................................. 34 - 44 Nm (25 - 33 ft. lbs.)
Page 7473
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 149
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Service and Repair
Condenser HVAC: Service and Repair
REMOVAL
1. Discharge refrigerant using the recovery/recycling equipment (ACR4). 2. Remove side marker
lamps. 3. Remove front grille (4 fasteners). 4. Remove harness clip from hood lock stay, if
equipped (gently press out). 5. Remove grille apron (5 nuts).
6. Remove hood lock stay brace (4 bolts). Remove hood latch (3 bolts). 7. Remove hose
(high-pressure) clamp bracket from radiator core support. 8. Disconnect high-pressure hose at
condenser. 9. Disconnect dual-pressure switch harness connector.
10. Disconnect high-pressure tube (liquid tank to cooling unit) at liquid tank. 11. Remove liquid tank
and bracket. 12. Remove lower core support seal (4 bolts). 13. Loosen windshield washer tank
bolts. 14. Remove condenser mounting bolts (2 bolts).
15. Remove condenser assembly.
CAUTION: Carefully lift condenser without damaging radiator (fin and tube).
Page 3652
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9164
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3752
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6262
Torque Converter Clutch Solenoid: Description and Operation
SYSTEM DESCRIPTION
The ECM controls torque converter clutch solenoid valve to cancel the lock-up condition of A/T.
When the solenoid valve is turned on, lock-up is cancelled. When the solenoid valve is turned oft,
A/T lock-up is operational.
Conditions for lock-up cancel: Torque converter clutch solenoid valve is turned "ON" when; Throttle valve is fully closed (during idling or deceleration)
- Engine coolant temperature is below 40° C (104° F)
- Engine is stopped
Conditions for lock-up operation: Under 55 to 63 km/h (34 to 39 MPH) (2/8 throttle on flat road), lock-up does not operate even when
the torque converter clutch solenoid valve is "OFF".
- Over 58 to 66 km/h (36 to 41 MPH) (2/8 throttle on flat road), lock-up should operate because the
torque converter clutch solenoid valve is "OFF". To confirm vehicle lock-up, the torque converter
clutch solenoid valve must be in operation ("ON" during idle and deceleration, and "OFF" during
acceleration) and engine speed should drop. When the accelerator pedal is depressed (less than
2/8) in lock-up, the engine speed should not change abruptly. If there is a big jump in engine
speed, there will be no lock-up.
CONSULT REFERENCE VALUE IN DATA MONITOR MODE
ECM TERMINALS AND REFERENCE VALUE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
ON BOARD DIAGNOSIS LOGIC
DIAGNOSTIC TROUBLE CODE CONFIRMATION PROCEDURE
CAUTION: Always drive vehicle at a safe speed.
Diagram Information and Instructions
Fuel Injector: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 8949
Audible Warning Device: Electrical Diagrams
EL-CHIME-01 Warning Chime (Part 1 Of 2)
Models With Power Door Locks Circuit Diagrams
Page 5627
Ground Distribution
Page 3588
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
ECM - Relay (Type 1M) Green or Blue Precautions
Main Relay (Computer/Fuel System): Technical Service Bulletins ECM - Relay (Type 1M) Green or
Blue Precautions
Classification: EC93-016
Reference: NTB93-176
Date: November 29, 1993
GREEN OR BLUE (TYPE 1M) RELAY CAUTION APPLIED VEHICLE(S): All Models
SERVICE INFORMATION When servicing a customer's vehicle, exercise caution when diagnosing
/ checking at any green or blue colored relay (type 1M, 1 make-normally open relay). SERVICE
PROCEDURE When diagnosing at any green or blue colored relay (type 1M, 1 make-normally
open relay), observe the following cautions to prevent damage to the Engine Control Module
(ECM):
1. Note that the schematic on the fuel pump relay is rotated 90 degrees from the orientation of the
relay terminals in the relay connector (see diagram):
2.
Exercise caution to ensure that the correct terminals are being probed at the relay connector during
diagnosing / checking.
Note:
If terminals 2 or 3 (battery voltage) are connected to terminal 1, the ECM will become damaged if
the circuit being tested has terminal 1 connected to the ECM.
Page 4553
Type Of Standardized Relays (Part 2 Of 2)
Page 9196
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5790
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 5113
Ground Distribution
Diagram Information and Instructions
Absolute Pressure Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Instruments - Fuel Gauge Inaccurate
Grounding Point: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 5165
Type Of Standardized Relays (Part 2 Of 2)
Page 812
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7859
Suspension Strut / Shock Absorber: Description and Operation
Type .....................................................................................................................................................
.......................................... Double-Acting Hydraulic
Page 630
Oxygen Sensor: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 2629
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 5195
EGR Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 7572
SPECIAL TOOLS
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
Page 3501
Intake Air Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 2365
Page 1697
Refrigerant Oil: Technical Service Bulletins A/C - R134a Charge Amount/Lubricant Chart
Classification: HA95-013
Reference: NTB95-068
Date: July 5, 1995
R134a CHARGE AMOUNTS/PAG LUBRICANT CHART
APPLIED VEHICLE(S): All equipped with R134a A/C systems
SERVICE INFORMATION For reference, the chart in this bulletin has been prepared. It contains
information by vehicle model and year regarding A/C systems conversion dates to R-134a type
systems. Please note, the dates shown indicate the conversion date at the manufacturing level, not
on dealer installed units.
Diagram Information and Instructions
Knock Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Locations
Air Bag Deactivation Switch: Locations
BR-ABS-01 Anti-lock Brake System (Part 1 Of 5)
Passenger Air Bag Deactivation Switch
SRS Component Parts Location
Page 212
Ignition Control Module: Electrical Diagrams
WIRING DIAGRAM
Page 4602
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2568
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 1387
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
Page 2458
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3700
^ C-III PCMCIA Card Adapter is installed.
^ C-III Security Card is installed.
^ A screen print for Warranty documentation can be done from C-III during this process while still
cable-connected to the vehicle.
1. Use the USB cable to connect the Vehicle Interface (VI) to the C-III computer and then connect
the VI to the vehicle.
CAUTION
2. Connect the AC Adapter to the C-III computer.
CAUTION
3. Connect a battery charger to the vehicle battery:
For Conventional Vehicles
^ Set the battery charger at a low charge rate.
NOTE:
The GR-8 (Battery and Electrical Diagnostic Station) set to "Power Supply" mode is recommended.
CAUTION
For Hybrid Vehicles
^ Use the GR-8 Battery and Electrical Diagnostic Station.
^ If needed, refer to Hybrid Service TSBs for connecting the GR-8 to the Hybrid 12V battery.
Page 4351
9. Use compressed air to remove any metal debris from inside the boss threads.
CAUTION:
DO NOT perform this step if the procedure is being done on the vehicle (Method #1). Doing so may
cause metal debris to enter the engine cylinders.
10. If metal debris remains trapped in the boss threads, use a spiral nylon brush to remove it.
11. Spray the boss threads with rust penetrant for 2 to 3 seconds.
12. Run a thread chaser through the boss to clean the threads.
^ Use Kent Moore part number J-43897-18 or J43897-12.
Page 9131
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4454
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 728
Description (Part 1 Of 2)
Page 3284
Optional Splice
Example Diagrams
Page 9242
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6249
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1190
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Audio - Speaker Noise, Cellular Phone Interference
Cellular Phone: All Technical Service Bulletins Audio - Speaker Noise, Cellular Phone Interference
Classification: EL99-005
Reference: NTB99-017
Date: April 1, 1999
NISSAN SPEAKER NOISE DUE TO CELLULAR PHONE INTERFERENCE
APPLIED VEHICLES: All Nissan Vehicles
SERVICE INFORMATION Cellular phone charging may cause a popping or crackling noise in the
audio speakers of Nissan vehicles. If this condition exists, it is most likely to occur when the
customer's cellular phone is turned off, plugged into the 12 volt cigarette lighter socket nearest the
audio head unit, and placed within one foot of the audio head unit. The condition may occur more
frequently in vehicles with audio systems with amplified speakers. Refer to the appropriate owner's
manual for cautions regarding the use of the cigarette lighter socket as a power source for other
accessories. Use the procedure below to verify that the condition exists as described above and
provide instruction for the customer to reduce the possibility of future cellular phone interference.
SERVICE PROCEDURE Perform the following test procedure to verify the condition exists as
described: 1.
Ask the customer for the cellular phone and charging adapter.
2.
Confirm the cellular phone has been turned off for at least 30 minutes before proceeding.
NOTE:
Do not turn the cellular phone on at any time during the procedure. If the phone has to be turned
from on to off, you will have to wait 30 minutes for the phone to reset to proceed with the test.
3. Plug the phone into the 12 volt cigarette lighter socket nearest the audio head unit.
4.
Turn the ignition to the "ON" position (do not turn the cellular phone on).
5.
Turn the audio unit on.
6.
Place the cellular phone close to the front of the audio head unit.
7.
Listen for a popping or crackling noise from the audio speakers.
8.
If the noise is heard, move the cellular phone back from the audio unit. The noise should be
reduced as the cellular phone is moved further away from the audio unit.
9.
If the condition is confirmed through the above procedure, advise the customer to keep the cellular
phone at least one foot away from the audio head unit to reduce the possibility of future cellular
phone interference.
Page 3523
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6776
3. Press axle shaft into inner race of wheel bearing.
Maximum load P: 47.1 kN (5.3 US ton)
NOTE: Be careful not to damage or deform grease seal.
4. Install plain washer and a new wheel bearing lock washer.
5. Tighten wheel bearing lock nut to 245 - 294 Nm (181 - 217 ft. lbs.).
NOTE: Fit wheel bearing lock washer lip in wheel bearing lock nut groove correctly by tightening
lock nut. Be sure to bend it up.
6. Check wheel bearing preload.
a. Turn bearing cage (with respect to axle shaft) two or three times. It must turn smoothly.
b. Attach spring gauge to bearing cage bolt (as shown at left) and pull it at a speed of 10 rpm to
measure preload.
Spring gauge indication: 6.9 - 48.1 N (1.5 - 10.8 lbs.)
7. Install new oil seal to rear axle housing using a suitable tool.
NOTE: After installing new oil seal, coat sealing lip with multi-purpose grease.
8. Install new O-ring to rear axle housing.
Page 3931
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Testing and Inspection
Oil Pressure Warning Lamp/Indicator: Testing and Inspection
For further information regarding this component and the system that it is a part of, please refer to
Sensors and Switches - Engine.
Page 4456
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6961
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1609
Coolant: Fluid Type Specifications
Specified type: [1]
..................................................................................................................................................
Ethylene glycol base anti-freeze/coolant
[1] 50% mix of anti-freeze/coolant and soft water.
Page 7350
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3569
Camshaft Position Sensor: Description and Operation
COMPONENT DESCRIPTION
The camshaft position sensor is a basic component of the ECCS. it monitors engine speed and
piston position. These input signals to the ECM are used to control fuel injection, ignition timing and
other functions. The camshaft position sensor has a rotor plate and a wave-forming circuit. The
rotor plate has 360 slits for a 1° (POS) signal and 4 slits for a 180° (REF) signal. The wave-forming
circuit consists of Light Emitting Diodes (LED) and photo diodes. The rotor plate is positioned
between the LED and the photo diode. The LED transmits light to the photo diode. As the rotor
plate turns, the slits cut the light to generate rough-shaped pulses. These pulses are converted into
on-off signals by the wave-forming circuit and sent to the ECM. The distributor is not repairable and
must be replaced as an assembly except distributor cap.
Specifications
Page 2679
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Recall - A/T Shifter Replacement
Technical Service Bulletin # 98-032 Date: 980401
Recall - A/T Shifter Replacement
Reference: NTB98-032
Date April 1, 1998
VOLUNTARY SAFETY RECALL CAMPAIGN 1998 FRONTIER AUTOMATIC TRANSMISSION
SHIFTER ASSEMBLY REPLACEMENT
CAMPAIGN IDENTIFICATION NO: 98V-064
APPLIED VEHICLE: 1998 Frontier (D22)
APPLIED VIN: 1N6DD21S*WC305007 to WC330328
INTRODUCTION
There is a possibility that on some 1998 Frontier trucks, a securing pin inside the Automatic
Transmission Shifter Assembly could come loose. This could allow the shift lever to be
inadvertently moved out of the "Park" position without the key in the ignition and could result in
unexpected movement of the vehicle if the parking brake is not engaged. There may also be
difficulty in shifting the lever in or out of "Park" with the key in the ignition.
IDENTIFICATION NUMBER
Nissan has assigned identification number 98V-064 to this campaign. This number must appear on
all communications and documentation of any nature dealing with this campaign.
NUMBER OF VEHICLES POTENTIALLY AFFECTED
Approximately 3,000
DEALER RESPONSIBILITY
It is the dealer's responsibility to check Service Comm for the campaign status on each vehicle
falling within the range of this campaign which for any reason enters the service department. This
includes vehicles purchased from private parties or presented by transient (tourist) owners and
vehicles in dealer inventory. Federal law requires that new vehicles in dealer inventory which are
the subject of a safety recall must be corrected prior to sale. Failure to do so can result in civil
penalties by the National Highway Traffic Safety Administration. While federal law applies only to
new cars, Nissan strongly encourages dealers to also correct any used trucks in their inventory
which fall within the range of this campaign prior to sale.
INSPECTION PROCEDURE
1. Check Service Comm to verify that the campaign procedure has not already been performed on
this vehicle.
Page 3556
Ground Distribution
Page 3184
Ground Distribution
Page 6492
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4799
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 497
Ground Distribution
Page 7083
Transmission Position Switch/Sensor: Description and Operation
COMPONENT DESCRIPTION
When the gear position is "P" (A/T models only) or "N", park/neutral position switch is "ON". ECM
detects the park/neutral position when continuity with ground exists.
Wheel Fastener Torque Specifications
Wheel Fastener: Specifications Wheel Fastener Torque Specifications
TIGHTENING SPECIFICATIONS
Lug Nut ................................................................................................................................................
............................ 118 - 147 Nm (87 - 108 ft. lbs.)
Page 6368
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 1008
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2460
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9282
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 4391
EC-FRO2/H-01 Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Diagrams
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Page 2509
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8822
Reference: TS87-145
Date: September 28, 1987
PAINT SPOTTING REPAIR PROCEDURE
APPLIED VEHICLE(S): All Models
SERVICE INFORMATION
Paint spotting incidents occurring in the U.S. market are not unique to Nissan, but are being
experienced by all manufacturers. To date, two separate types of paint spotting incidents have
been identified as follows:
1. Particulate Fallout - Tiny solid particles which collect on horizontal panels, causing a dark stain
which will penetrate into the paint if not cleaned.
2. Water Spotting - A ringlet or multiple water-drop-shaped light discoloration on dark painted
horizontal panels.
THESE TYPES OF SPOTTING ARE NOT DUE TO PAINT DEFICIENCY, AND CAN BE
PREVENTED THROUGH PROPER CARE.
SERVICE PROCEDURE
Particulate Fallout
Ash, dust, soot and other tiny solid particulate matter from industrial and other sources can be
carried many miles. Particulate fallout is most noticeable on the horizontal surfaces (hood, luggage
compartment lid, and roof) of the vehicle.
If left on a moist, painted surface, the particles will slowly dissolve and bond to the paint, frequently
leaving a red stain. This stain can be present even on plastic surfaces such as bumpers if the
fallout has an iron content. These spots may be visible on both solid and metallic paints (especially
light colors). The particulate can be felt as a sharp point on the paint surface. When viewed through
a magnifying lens, the staining may be evident.
VEHICLE CARE
Every 10 days, or more frequently depending upon local conditions, particulate fallout must be
washed off with mild detergent and water to prevent its bonding and staining action. A good
carnuba wax coating can help protect against damage from particulate fallout.
PARTICULATE FALLOUT REPAIR PROCEDURE
In most cases, thoroughly washing the affected area with a water and mild detergent solution (to
avoid scratching the finish with dislodged particles) will remove the particulates.
After washing the vehicle, a stain, generally orange or red, may still be visible on white or other
light colored vehicles. This stain can be removed with a fine compound material. DO NOT APPLY
THE COMPOUNDING MATERIAL BEFORE ALL PARTICLES IN THE AFFECTED AREA ARE
REMOVED BY THOROUGH WASHING.
Water Spotting
A photograph of typical water spotting is shown on page 26 of the Nissan Paint Refinishing Guide*
(PIN 5REFGD). The spots are most visible when viewed at an angle, usually under fluorescent
light. The paint surface is usually smooth to the touch because the spotting is a change in the top
surface itself. This is not hard-water residue which will wash off with soap and water. These spots
are visible on both solid and metallic paints with dark colors.
VEHICLE CARE
When a vehicle is stored outside and unprotected, dust patterns develop on the painted surfaces.
These patterns guide moisture droplets from a light rain or morning dew to the same location each
time. The strong sunlight, repeatedly concentrated on these water droplets, greatly contributes to
the spotting. When storing a vehicle unprotected, where the painted surface is repeatedly exposed
to a combination of sunlight and light rain (or morning dew), the vehicle MUST be washed AND
thoroughly dried at least every two weeks, or more frequently if there is light rain or dew followed
by strong sunlight.
When washing any vehicle, it must be out of direct sunlight and the painted surfaces should be cool
to the touch.
WATER SPOTTING REPAIR PROCEDURE
The method of repairing a water spotted finish varies with the severity (depth of spot in finish) of the
spotting. After a thorough washing, perform the
Page 6092
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5062
Description (Part 1 Of 2)
Page 6329
13. Select Confirm
14. Select Diagnosis
15. Wait for ECM Diagnosis to complete.
Page 3458
Absolute Pressure Sensor: Electrical Diagrams
EC-AP/SEN-01 Absolute Pressure Sensor
Circuit Diagrams
Absolute Pressure Sensor
Circuit Connectors
Page 4294
Ground Distribution
Page 3953
Circuit Connectors
Response Monitoring
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 4147
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5870
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 7782
a. Install steering gear on Tool. b. Turn stub shaft all the way to right and left several times.
c. Measure turning torque at 360° position from straight ahead position with Tools.
Turning torque 360°: 0.15 - 0.78 Nm (1.3 - 6.9 inch lbs.)
d. Measure turning torque at straight ahead position.
Straight ahead position is a position where stub shaft is turned 2.14 turns (two full turns and 50°)
from lock position.
Turning torque at straight ahead position:
0.25 - 1.32 Nm (2.2 - 11.7 inch lbs.) higher than turning torque at 360°.
Maximum turning torque:
1.03 - 1.47 Nm (9.1 - 13.0 inch lbs.)
If turning torque is not within specifications, adjust by turning sector shaft adjusting screw.
2. Tighten adjusting screw lock nut with tools.
Pre-Disassembly Inspection
Page 9146
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3295
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Diagram Information and Instructions
Leak Detection Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4417
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2680
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Cassette - Poor Sound Quality/Loss of Channel/Jamming
Tape Player: Technical Service Bulletins Cassette - Poor Sound Quality/Loss of Channel/Jamming
REFERENCE: NTB93-017
CLASSIFICATION: EL93-004
DATE: January 21, 1993
TITLE: CASSETTE TAPE PLAYER MAINTENANCE
APPLIED VEHICLES(S): All Nissan vehicles equipped with cassette tape players
SERVICE INFORMATION In normal use, the playback head, capstan and rollers of any cassette
tape player will attract dirt or residues from the tape material each time a cassette is played. This
causes a deterioration of sound quality (i.e., distortion, reduced frequency response, and reduced
clarity). If residues and dirt are not removed, loss of channel(s) or "tape eating" may occur. In order
to help your customers to avoid these incidents and ensure optimum performance from their
cassette tape players, please advise them of the need to perform the following maintenance
procedures:
SERVICE PROCEDURE Use a cassette cleaning kit to clean the cassette tape player (specifically
the tape head and capstan rollers) after every 30 hours of play or once a month, whichever comes
first. You may use the Nissan Cassette Deck Cleaning System, P/N 999U2-AD010 or equivalent.
Be careful to follow the kit usage instructions. CASSETTE TAPE CARE GUIDELINES:
- Before turning off the radio, eject the cassette being played. Allowing the tape mechanism to stop
while a tape is engaged can damage the tape, pinch roller or capstan. After turning off the radio, do
not leave the tape in the cassette door pathway.
- Use tapes which are 90 minutes or less in play time.
- Use protective plastic cases to store cassettes when not in use. This will prevent them from
unwinding and collecting dust.
- Protect tapes from extreme heat, direct sunlight, extreme cold, and from foreign material such as
liquids or sticky substances. Discard damaged or contaminated tapes.
- Do not use tapes that are more than 5 years old. Older tapes suffer from stretch and increased
tape residue.
NOTE: If your customer complains of deterioration of sound quality, loss of channels(s) or "tape
eating," please clean the cassette tape player using the Cassette Deck Cleaning System as
described above. In most cases, this procedure will return the cassette deck to full efficiency.
Page 1296
Optional Splice
Example Diagrams
Page 1457
Page 2227
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9296
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2698
Intake Air Temperature Sensor: Electrical Diagrams
EC-IATS-01 Intake Air Temperature Sensor (DTC: P0110)
Circuit Diagrams
Intake Air Temperature Sensor (DTC: P0110)
Intake Air Temperature Sensor Circuit Connectors
Page 3618
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 2577
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9421
Ground Distribution
Page 3859
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3557
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 3308
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 7016
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 8212
Comments regarding R-134a manifold gauge set:
^ Be certain that the gauge face indicates R134a or 134a.
^ Be certain that the manifold gauge set has the 1/2" - 16 ACME threaded connections for service
hoses, ensuring that only R-134a service hoses are used.
^ Be certain that no refrigerants other than R-134a (along with only specified lubricants) are used
with the manifold gauge set.
Page 2268
Optional Splice
Example Diagrams
Page 1481
Overall inspection sequence
Page 2198
2. Apply a continuous bead of liquid gasket to mating surface of water pump.
- Use Genuine RTV Silicone Sealant Part No. 999 MP-A7007, Three Bond TB1207D or equivalent.
Page 6093
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 4572
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 715
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9511
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7152
d. Repeat steps 1, 2, and 3 ten times to complete the burnishing process.
4. Follow-up to ensure customer satisfaction, safety, and proper brake performance.
^ Confirm the procedures described in steps 2 - 4 above have been strictly followed.
ROTOR INDEXING
When installing a new rotor, a rotor that has been surfaced off the car, or a rotor that has been
removed for any reason, use the following indexing procedure to ensure the minimum amount of
rotor run-out.
1. Make sure the rotor is fully contacting the hub. Clean the rotor-to-hub surface if it is rusty.
NOTE:
For cleaning the hub surface, specifically around the wheel studs, it is recommended to use the
Wheel Hub Cleaning Kit # J-42450-A, which can be ordered from Nissan TECH-MATE.
2. Install the rotor and all lug nuts. Tighten the lug nuts to 40 ft-lbs (for this indexing process only).
3. Place a reference mark on the rotor and hub.
4. Measure rotor run-out with a dial indicator. If the run-out is above limit continue with step 5.
For more detail of the run-out limit refer to the ESM.
5. Remove the lug nuts and shift the position of the rotor one lug clockwise, then reinstall the lug
nuts and torque to 40 ft-lbs (again, for this indexing process only).
^ Repeat step 4 and 5 until the rotor is positioned with the least amount of runout.
6. After you find the position with the least amount of runout, if the runout is still more than the limit,
you'll need to turn (resurface) the new rotors using the ProCut(TM) PFM Series on-car brake lathe.
CLAIMS INFORMATION
Please reference the current Nissan "Warranty Flat Rate Manual" and submit your claim(s) using
the Operation Code (Op Code) or combination of Op Codes that best describes the operations
performed.
Disclaimer
Page 1210
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6497
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6151
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2476
Ignition Control Module: Testing and Inspection
COMPONENT INSPECTION Power Transistor
1. Disconnect camshaft position sensor & power transistor harness connector and ignition coil
harness connector.
2. Check power transistor resistance between terminals (2) and (8).
If NG, replace distributor assembly.
Page 4161
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 1282
Type Of Standardized Relays (Part 2 Of 2)
Page 3617
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 7395
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 8959
Audible Warning Device: Component Tests and General Diagnostics
Ground Circuit Check
Main Power Ground Circuit Check (With Power Door Locks)
Models With Power Door Locks
Main Power Ground Circuit Check (Without Power Door Locks)
Models Without Power Door Locks
Main Power Supply Circuit Check
Main Power Supply Circuit Check (With Power Door Locks)
Models With Power Door Locks
Main Power Supply Circuit Check (Without Power Door Locks)
Models Without Power Door Locks
Electrical Components Inspection
Page 376
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2941
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2579
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 2775
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1446
3. Adjust stopper bolt if necessary.
Standard length "L1" (2WD):
20 mm (0.79 inch) (Length before cap is mounted.)
Standard length "L2" (4WD):
26.5 mm (1.043 inch) (Length before cap is mounted.)
Page 5701
Throttle Full Close Switch: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6290
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Checking Fluid Level
Power Steering Fluid: Testing and Inspection Checking Fluid Level
Check fluid level engine off. Check fluid level referring to the scale on the dipstick. Use "HOT"
range for fluid temperatures of 50 - 80° C (122 - 176° F). Use "COLD" range for fluid temperatures
of 0 - 30° C (32 - 86° F).
CAUTION: ^
Do not overfill.
^ Recommended fluid is Automatic Transmission Fluid (ATF) type Dexron III, or equivalent.
Page 7792
Page 4964
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7398
Fuse: Locations Fuse ID
Power Supply Routing: Schematic (Part 1 Of 2)
Page 4722
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 8207
Page 2240
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3309
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2886
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 9087
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Locations
Relay Box: Locations
Component Parts And Harness Connector Location
Locations
Power Window Relay: Locations
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Service and Repair
Axle Nut: Service and Repair
Manual Lock Free Running Hub
REPLACEMENT
1. Set knob of manual-lock free running hub in the FREE position.
2. Remove manual-lock free running hub.
3. When installing manual-lock free running hub, make sure the hub is in the FREE position.
NOTE: Apply multi-purpose grease to the parts shown in the illustration.
4. Check operation of manual-lock free running hub after installation.
INSPECTION
- Check that the knob moves smoothly and freely.
- Check that the clutch moves smoothly in the body.
Auto Lock Free Running Hub
Page 7209
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Page 1686
Comments regarding condensers:
^ The parallel flow condenser can be identified by the refrigerant end tanks, and smaller, more
closely spaced center section tubes.
Page 9372
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 658
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 9528
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Specifications
Page 3138
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 1160
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6116
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4908
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6396
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2814
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Diagram Information and Instructions
Camshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 732
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3535
Intake Air Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION
Intake air temperature sensor Check resistance as shown in the figure. If NG, replace intake air
temperature sensor.
Page 6704
Use the "Combination" Op Codes as indicated with the appropriate Section "JA", "JC", or "JD"
coding that best represents the A/T R&R; and repair/replacement performed.
Service Procedure
Page 5712
Throttle Full Close Switch: Description and Operation
COMPONENT DESCRIPTION
A closed throttle position switch and wide open throttle position switch are built into the throttle
position sensor unit. When the throttle valve is in the closed position, the closed throttle position
switch sends a voltage signal to the ECM. The ECM only uses this signal to open or close the
EVAP canister purge volume control solenoid valve when the throttle position sensor is
malfunctioning.
Page 2355
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 797
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 9562
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3956
EC-FRO2-01 Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Diagrams
Front Heated Oxygen Sensor (High Voltage) (Front HO2S) (DTC: P0134)
Circuit Connectors
Response Monitoring
Page 3865
Ignition Output Signal: Electrical Diagrams
WIRING DIAGRAM
Page 3078
Leak Detection Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 438
Air Flow Meter/Sensor: Electrical Diagrams
EC-MAFS-01 Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Diagrams
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 3801
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 223
SRS Component Parts Location
Alignment Specifications
Page 3442
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6160
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7354
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 200
Ground Distribution
Page 713
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2694
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4620
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 9448
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 6571
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 8150
1. Visually inspect the metal tube portion of the A/C low hose between the compressor flange and
the rubber hose for cracks or signs of leakage such as traces of oil or dirt deposits (see Figure 1).
NOTE:
Use a mirror and flashlight (as needed) to view the underside of the hose end.
Low Hose Leak Detector Inspection
1. Use an approved electronic leak detector (Kent Moore model # J39400 or # J41995) to check
the A/C low hose for leaks. Refer to pages HA-48 through HA-50 of the 1998 Frontier Service
Manual for the leak check procedure.
NOTE:
Make sure the electronic leak detector is properly calibrated and that the probe tip filter is clean
before performing the leak check. Refer to the leak detector owner's manual to calibrate and/or
change the probe tip filter as needed.
A/C Low Hose Installation
1. Use appropriate equipment to discharge and recover all remaining refrigerant from the vehicle's
A/C system. Refer to pages HA-51 and HA-52 of the 1998 Nissan Frontier Service manual for the
discharge and recovery procedure.
Page 1927
Timing Components
Page 8281
performed exactly as outlined in this bulletin.
Submit a Primary Failed Part (PP) line using the claims coding.
Page 7035
Type Of Standardized Relays (Part 2 Of 2)
Page 205
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 129
Description (Part 1 Of 2)
Page 7639
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4705
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 2756
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 1909
Oil Pump
Page 3670
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 9110
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Steering/Suspension - Wheel Alignment Info.
Technical Service Bulletin # 04-054C Date: 110406
Steering/Suspension - Wheel Alignment Info.
Classification: WT04-004C
Reference: NTB04-054C
Date: April 6, 2011
WHEEL ALIGNMENT INFORMATION
This bulletin has been amended to correct some typographical errors in SERVICE INFORMATION.
No other changes have been made. Discard all previous versions of this bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
Warranty Claim Information: In order to properly document any warranty alignment claim, the
following item MUST be attached to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
General Information and Recommendations
SERVICE INFORMATION
^ When performing a wheel alignment it is important that you read and follow all of the instructions
supplied with your alignment equipment.
^ The information in this bulletin is not intended to be complete wheel alignment instructions.
^ Use the information in this bulletin as a supplement to the instructions for your equipment.
General Information and Recommendations
1. Four-Wheel Thrust Alignment should always be performed.
^ This type of alignment is recommended for all Nissan vehicles.
^ The four-wheel thrust process ensures that the vehicle is properly aligned, and helps ensure
proper "centering" of the steering wheel.
2. Use the right alignment machine.
^ You must use a quality alignment machine that will give accurate results when performing
alignment checks.
^ Refer to the Nissan TECH-MATE Service Equipment Catalog for recommended alignment
equipment.
^ The alignment rack itself should be capable of accepting any Nissan vehicle. The rack should be
checked to ensure that it is level.
3. Make sure the alignment machine is properly calibrated.
^ Your alignment equipment should be regularly calibrated in order to give accurate readings.
^ If any instrument that is part of the alignment machine is dropped or damaged, calibration should
be checked immediately.
^ Check with the manufacturer of your specific equipment for their recommended
service/calibration schedule.
NOTE:
In order to properly document any warranty alignment claim, the following item MUST be attached
to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
Page 9466
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5040
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5908
Type Of Standardized Relays (Part 2 Of 2)
Page 8928
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Service and Repair
Fan Blade: Service and Repair
REMOVAL AND INSTALLATION
- Do not release the drive belt tension by removing the fan/water pump pulley.
- Fan coupling cannot be disassembled and should be replaced as a unit. If front mark (F) is
present, install fan so that side marked (F) faces the front.
- Install the drive belt only after the fan and fan coupling to water pump flange bolts/nuts have been
properly torqued.
- Proper alignment of these components is essential. Improper alignment will cause them to wobble
and may eventually cause the fan to separate from the water pump causing extensive damage.
INSPECTION
Check fan coupling for rough operation, silicon oil leakage and bent bimetal.
After assembly, verify the fan does not wobble or flap while the engine is running.
WARNING: WHEN THE ENGINE IS RUNNING, KEEP HANDS AND CLOTHING AWAY FROM
MOVING PARTS SUCH AS DRIVE BELTS AND FAN.
Page 4061
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Oxygen Sensor - Thread Cleaning and Other Precautions
Catalytic Converter: All Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 1396
The information in the Service Procedure section was updated.
Please discard paper copies of NTB00-037a.
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Customers may use the term "vehicle pull" to describe a number of different potential incidents.
This bulletin discusses some of the possible situations they may be attempting to describe, and
provides diagnostic and repair information for each, should one occur.
In some cases a vehicle may drift to one side of the road as a normal result of road crown. Most
roads in the United States are built with a "crown" to help rain water drain from the road surface.
The slope of the road crown varies from place to place. In most cases the crown slopes from 1 to
1.5 percent to the right.
Vehicles have a natural tendency to drift to the low side of the crown. The greater the slope of the
crown, the faster the vehicle will drift in that direction. Tires and vehicles are designed to counteract
the effect of typical road crown, typically with a small amount of counteracting left pull, but may not
fully counteract the effect of a highly crowned road.
Some freeways slope to both the left and right (from the center). A vehicle may exhibit a small
amount of pull to the left when driving in the left lane of a freeway with this condition.
This bulletin does not address "repair" of road crown incidents because they are not vehicle
related. Use the information provided in this bulletin to identify and repair other types of "vehicle
pull".
Incident Description:
Pull
The vehicle consistently drifts to one side while driving at a constant speed (60 MPH) on a straight,
flat road. A vehicle is said to pull if it completes a lane change in less than 7 seconds with no
steering correction from the driver when driving (at 60 MPH) on a crown-sloped road of less than 1
percent. All four wheels must pass into the other lane during this time (7 seconds).
Pull can occur as a result of incorrect wheel alignment, tire condition or steering rack sliding force.
It can also occur as a result of excessive tire "conicity". This refers to a condition when the tire
tread surface is not parallel to the axle centerline (see Figure 1). Conicity occurs during the
manufacturing process and the tire may not show noticeable tread wear. When it occurs, it has the
effect of the tire taking the shape of a cone. As a result, the tire has a tendency to roll towards the
point of the cone.
The vehicle will pull in the direction of the tire with the greatest conicity. If the tire conicity is equal
on both sides of the vehicle, there is no effect on vehicle pull.
Steering Wheel Off-Center
Page 1101
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1621
Fluid - A/T: Fluid Type Specifications
Specified type: Continental U.S. and Alaska .......................................................................................
............................................................................... Nissan Matic "D" Canada
.........................................................................................................................................................
Genuine Nissan Automatic Transmission Fluid
NOTE: Dexron III/Mercon or equivalent may also be used. Outside the continental United States
and Alaska contact an Infiniti dealership for more information regarding suitable fluids, including
recommended brand(s) of Dexron III/Mercon Automatic Transmission Fluid.
Page 1268
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9293
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 1586
Page 6904
Counter Gear: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Manual Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 2922
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9230
Optional Splice
Example Diagrams
Page 1321
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5686
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3233
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7615
Lower Arm Pivot Height "H" [1]: 45.5 - 49.5 mm (1.791 - 1.949 inch)
NOTE: Fuel, radiator coolant and engine oil full. Spare tire, jack, hand tools and mats in designated
positions.
- "H" is the distance from the center of lower link spindle to the bottom of tension rod attaching bolt.
Page 5177
Optional Splice
Example Diagrams
Page 2426
ECM INSPECTION TABLE
Specification data are reference values and are measured between each terminal and (32) (ECM
ground).
Page 8732
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Diagram Information and Instructions
Crankshaft Position Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 5964
Optional Splice
Example Diagrams
Page 3225
Ground Distribution
Page 6257
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 611
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 486
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1931
Water Pump and Thermostat Housing
REMOVAL AND TIGHTENING SEQUENCES
Intake Manifold, Exhaust Manifold and Throttle Body
Page 3613
Optional Splice
Example Diagrams
Page 5248
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 9445
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4931
Canister Purge Volume Control Valve: Description and Operation
COMPONENT DESCRIPTION
The EVAP canister purge volume control solenoid valve uses a ON/OFF duty to control the flow
rate of fuel vapor from the EVAP canister. The EVAP canister purge volume control solenoid valve
is moved by ON/OFF pulses from the ECM. The longer the ON pulse, the greater the amount of
fuel vapor that will flow through the valve
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): All Technical Service Bulletins Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 4233
Coolant Temperature Sensor/Switch (For Computer): Description and Operation
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 3191
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 5117
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Locations
Fuse Block: Locations
Component Parts And Harness Connector Location
Diagram Information and Instructions
Intake Air Temperature Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3874
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6949
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 578
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 185
Optional Splice
Example Diagrams
Page 5046
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 5877
Ignition Ballast Resistor: Testing and Inspection
COMPONENT INSPECTION Resistor
1. Disconnect resistor harness connector.
2. Check resistance between terminals (1) and (2).
Resistance: Approximately 2.2 K Ohms [at 25° C (77° F)]
If NG, replace resistor.
Page 6845
4. Apply multi-purpose grease to each bearing cone.
5. Pack grease seal lip with multi-purpose grease, then install it into wheel hub with suitable drift.
Page 4136
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 1233
Impact Sensor: Locations G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit.
Sunroof - Headliner Squeak Noises
Sunroof / Moonroof: Customer Interest Sunroof - Headliner Squeak Noises
Classification: BT98-003
Reference: NTB98-040
Date: June 1, 1998
1998 FRONTIER SQUEAK NOISE IN HEADLINER NEAR SUNROOF
APPLIED VEHICLE: All 1998 Frontier (D22) - sunroof models only
SERVICE INFORMATION If a 1998 Frontier exhibits a "scratchy" type of squeak noise in the
headliner around the edges of the sunroof, the cause may be the headliner panel rubbing on the
vehicle body.
Use the following procedure to resolve the incident:
SERVICE PROCEDURE
1. Remove the sunroof panel as follows:
A. Remove the sunroof shade panel by turning the securing knobs counterclockwise and pulling
the panel down and towards the rear of the vehicle to release (see Figure 1).
B. Disconnect the sunroof handle from the sunroof handle latch by depressing the two release
buttons on the handle latch while pushing up on the sunroof panel (see Figure 2).
Page 3342
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8923
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Suspension - Steering Pull Diagnosis
Alignment: All Technical Service Bulletins Suspension - Steering Pull Diagnosis
Classification: ST01-003
Reference: NTB01-083
Date: November 28, 2001
1998-2002 FRONTIER AND 2000-2002 XTERRA STEERING PULL DURING BRAKING
APPLIED VEHICLES: 1998-2002 Frontier (D22) 2000-2002 Xterra (WD22)
SERVICE INFORMATION
If an applied Frontier or Xterra exhibits a slight steering pull (left or right) during:
^ Moderate application of the brakes to bring the vehicle to a complete stop from a speed of
between 20 and 30 mph.
The following steps should be performed in order given;
1. The vehicle suspension should be inspected.
2. Vehicle ride height should be checked.
3. Alignment should be checked to ensure that all measurements are within factory specifications.
When performing an alignment, refer to the appropriate Electronic Service Manual (ESM) for
specifications and adjustment procedures.
Trouble Diagnosis (For USA)
Headlamp: Testing and Inspection Trouble Diagnosis (For USA)
Trouble Diagnoses
Trouble Diagnoses Chart
Adjustments
Throttle Valve Cable/Linkage: Adjustments
1. Turn ignition switch OFF. 2. While pressing lock plate, move adjusting tube in Direction T. 3.
Release lock plate. (Adjusting tube is locked at this time.) 4. Move throttle drum from P2 (idling
position) to P, (Full throttle position) quickly and release. 5. Ensure that throttle wire stroke "L" is
within the specified range, between full throttle and idle.
Throttle wire stroke "L": 39 - 43 mm (1.54 - 1.69 inch)
- Adjust throttle wire stroke after accelerator wire is installed and adjusted.
- When connecting throttle wire to throttle drum, do not use tools. Manually hook wire.
- Put mark on throttle wire for measuring wire stroke.
If throttle wire stroke is improperly adjusted, the following problems may arise.
- When the throttle drum fully-open position "P1" is too far toward Direction T, the shift schedule will
be as shown by (2) in the figure, and the kickdown range will greatly increase.
- When the throttle drum fully-open position "P1" is too far toward Direction U, the shift schedule
will be as shown by (1) in the figure, and kickdown will not occur.
Page 754
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 1062
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 428
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8193
Comments regarding leak detector use:
^ Existing R-12 leak detectors currently will not detect R-134a.
^ Many R-134a leak detectors will detect R-12; check with the equipment manufacturer.
^ Always refer to and follow the equipment manufacturers recommendations when operating leak
detectors.
Comments regarding weight scale use:
^ If the scale allows electronic control of the flow of refrigerant through the scale, (i.e. internal
solenoid valves) be certain that the hose fitting size is 1/2"-16 ACME, and that no refrigerant other
than R-134a (along with only specified lubricant) have been used with the scale.
Charging Cylinder
^ The use of a charging cylinder is not recommended because:
^ The refrigerant may be vented into the air from the top valve of cylinder when filling the cylinder
with refrigerant.
^ The accuracy of a charging cylinder is generally less than that of an electronic scale or of quality
recycle/recharge equipment.
Service Procedures
^ The service procedures for R-134a A/C systems are basically the same as for R-12 A/C systems,
however, the following should always be kept in mind:
^ Avoid breathing A/C refrigerant and lubricant vapor or mist. Exposure may irritate eyes, nose, and
throat. Use only approved recovery/recycling equipment to discharge R-134a systems.
^ If accidental system discharge occurs, ventilate the work area before resuming service work.
^ R-134a and R-12 A/C components are not interchangeable. Cleaning of used (in service)
components for use with another type of refrigerant and/or lubricant is not an acceptable practice,
and may result in A/C system failure.
^ Always use the proper PAG oil when servicing an R-134a A/C system. The Nissan part number
for the appropriate PAG compressor oil can be found on the A/C specification label in the engine
compartment, and also in the Factory Service Manual, and on the label on the compressor. These
oils are only available from your Nissan Parts Department.
^ When leak checking an R-134a system, be certain that you are using a detector which will detect
R-134a.
^ As mentioned previously in this bulletin, the R-134a PAG lubricants absorb moisture; PAG oil
containers and A/C components containing PAG oil must remain tightly sealed until ready for use.
^ Unlike R-12 systems, R-134a systems do not exhibit a "clear sight glass", even when properly
charged. For this reason, the R-134a A/C systems have no sight glass.
^ With R-134a systems it is important to properly control the amount of refrigerant charged into the
system during system charging. A charging machine or weight scale must always be used during
charging for proper charge determination.
^ Questions regarding R-12 or R-134a should be addressed to your Regional Service Staff or the
FIXS Hotline.
Page 1107
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 6373
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9212
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 153
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 2503
Ground Distribution
Page 5647
Optional Splice
Example Diagrams
Page 3035
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 8476
Impact Sensor: Description and Operation
Description
Description
4WD Models
The diagnosis sensor unit will deploy the air bags if the G-sensor and/or the crash zone sensor
activates simultaneously with the safing sensor while the ignition switch is ON. The passenger air
bag does not deploy when the passenger air bag deactivation switch is turned to the OFF position.
Page 4802
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
G Sensor
Impact Sensor: Service and Repair G Sensor
SRS Component Parts Location
Description
G Sensor
The G Sensor is located in the Diagnosis Sensor Unit. It can not be serviced separately.
Malfunction of the G Sensor requires replacement of the Diagnosis Sensor Unit. Refer to Diagnosis
Sensor Unit / Service and Repair.
Page 4538
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4458
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 9219
Brake Lamp: Electrical Diagrams
EL-STOP/L-01 Stop Lamp Wiring Diagram
Circuit Diagrams
Stop Lamp
Circuit Connectors
Page 4196
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Diagram Information and Instructions
Mirrors: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 3155
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6843
2. Remove brake caliper assembly without disconnecting hydraulic line.
CAUTION: Be careful not to depress brake pedal, or piston will pop out.
- Make sure brake hose is not twisted.
3. Remove lock washer. (4WD)
4. Remove wheel bearing lock nut.
2WD: With suitable tool 4WD: With Tool
5. Remove wheel hub and wheel bearing.
CAUTION: Be careful not to drop outer bearing.
6. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
DISASSEMBLY
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4018
Page 3582
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 2516
Absolute Pressure Sensor: Electrical Diagrams
EC-AP/SEN-01 Absolute Pressure Sensor
Circuit Diagrams
Absolute Pressure Sensor
Circuit Connectors
Page 3483
Ground Distribution
Page 3609
Crankshaft Position Sensor: Locations
ECCS Component Parts Location
Page 1690
Page 8405
8. As the tape rolls up to the "D" ring, center and smooth the tape around the back side of the "D"
ring. Press the bubbles and wrinkles out with your fingers (see Figure 7).
9. Peel off the remaining tape backing (see Figure 8A).
10. Carefully apply the tape around the remainder of the "D" ring. Press down the edges and make
sure there are no wrinkles (see Figure 8B).
11. Pull the seat belt back and forth against the tape-covered "D" ring to ensure that the tape is
firmly applied (see Figure 9).
12. Remove the binder clip from the seat belt.
13. Confirm the seat belt moves smoothly and quickly through the "D" ring.
Page 868
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9468
Parking Lamp: Connector Views
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4017
Page 435
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1195
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 290
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7486
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 2473
Type Of Standardized Relays (Part 2 Of 2)
Page 6325
Technical Service Bulletin # 09-029 Date: 090421
Engine Controls - CONSULTIII(R) ECM Programming
Classification: EC09-007
Reference: NTB09-029
Date: April 21, 2009
CONSULT-III ECM REPROGRAMMING PROCEDURE
APPLIED VEHICLES: All CONSULT-III (C-III) compatible Nissan vehicles
SERVICE INFORMATION
A complete step-by-step General Procedure for C-III ECM Reprogramming is now available in the
on-line version of this bulletin.
This General Procedure is also available via hyperlink from specific C-III symptom-based Technical
Service Bulletins in ASIST.
CAUTION
Part 1
Updated March 25, 2009
CONSULT-III (C-III) ECM REPROGRAMMING
A symptom based TSB is required before using this procedure.
IMPORTANT: Before starting, make sure:
^ ASIST on the C-III computer has been freshly synchronized (updated).
^ All C-III software updates (if any) have been installed.
NOTE:
The C-III computer automatically gets applicable ECM reprogramming data during ASIST
synchronization.
Page 963
Air Flow Meter/Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 5670
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 8386
12. Pull the seat belt back and forth against the tape-covered "D" ring to make sure that the tape is
firmly applied (see Figure 12).
13. Remove the binder clip from the seat belt.
14. Confirm that the seat belt moves smoothly and quickly through the "D" ring by latching and
unlatching it and allowing it to retract back into the retractor mechanism several times.
15. Repeat steps 1 through 14 of this procedure on the remaining front seat belt.
Page 6596
Page 5502
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3085
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9381
EL-DTRL-02 Headlamp Wiring Diagram (For Canada) (Part 2 Of 3)
Page 3854
Ground Distribution
Page 447
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5128
Leak Detection Valve: Testing and Inspection
COMPONENT INSPECTION
Vacuum Cut Valve
Check vacuum cut valve as follows:
1. Plug port (C) and (D) with fingers. 2. Apply vacuum to port (A) and check that there is no suction
from port (B). 3. Apply vacuum to port (B) and check that there is suction from port (A). 4. Blow air
in port (B) and check that there is a resistance to flow out of port (A). 5. Open port (C) and (D). 6.
Blow air in port (A) check that air flows freely out of port (C). 7. Blow air in port (B) check that air
flows freely out of port (D).
Page 4954
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 6259
Torque Converter Clutch Solenoid: Connector Views
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4478
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 5977
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 3962
EC-RRO2-01 Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Diagrams
Rear Heated Oxygen Sensor (Response Monitoring) (Rear HO2S) (DTC: P0139)
Circuit Connectors
Page 7388
Circuit Breaker: Testing and Inspection
Circuit Breaker Inspection
For example, when current is 30 A, the circuit is broken within 8 to 20 seconds. Circuit breakers are
used in the following systems.
^ Power Window & Power door lock
^ Multi-remote Control System
^ Theft Warning System
^ Warning Chime (with power door locks)
^ Room lamp (with power door locks)
Page 3274
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 4791
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6370
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5447
CLAIMS INFORMATION If only the ground wire connections are cleaned and the sending unit
replaced, submit a Primary Failed Part (PP) line using the claims coding as shown.
If the ground wire connections are cleaned and the sending unit and speedometer assembly
(unified control meter) are replaced, submit a Primary Failed Part (PP) line using the claims coding
as shown.
Page 4134
Description (Part 1 Of 2)
Page 3149
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5893
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3488
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5728
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5784
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 410
Optional Splice
Example Diagrams
Page 770
Description (Part 1 Of 2)
Page 3066
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3662
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 555
Optional Splice
Example Diagrams
Page 2830
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 4492
Optional Splice
Example Diagrams
Specifications
Crankshaft Position Sensor: Specifications
Resistance 166.5 - 302.5 ohms at 68 deg F
Page 2190
Valve Clearance: Service and Repair
CHECKING
Check valve clearance while engine is warm but not running.
1. Remove rocker cover and all spark plugs 2. Set No. 1 cylinder at TDC on its compression stroke
- Align pointer with TDC mark on crankshaft pulley.
- Check that valve lifters on No 1 cylinder are loose and valve lifters on No 4 are tight. If not, turn
crankshaft one revolution (360°) and align as above.
3. Check only those valves shown in the figure.
4. Using a feeler gauge, measure clearance between valve lifter and camshaft. Record any valve
clearance measurements which are out of
specification. They will be used later to determine the required replacement adjusting shim.
Valve clearance (Hot):
Intake: 0.31 - 0.39 mm (0.012 - 0.015 inch) Exhaust: 0.33 - 0.41 mm (0.013 - 0.016 inch)
5. Turn crankshaft one revolution (360°) and align mark on crankshaft pulley with pointer. 6. Check
those valves shown in the figure.
Page 4436
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6166
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2600
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 8992
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 910
Ground Distribution
Page 3440
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3887
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
A/C - Idler Pulley Whine Noise at 3000 rpm
Drive Belt: All Technical Service Bulletins A/C - Idler Pulley Whine Noise at 3000 rpm
Classification: HA99-006
Reference: NTB99-070
Date: October 5, 1999
A/C IDLER PULLEY WHINE NOISE AT 3000 ENGINE RPM (FOUR CYLINDER ENGINE ONLY)
APPLIED VEHICLES: 1998-2000 Frontier (D22) - 2WD 2000 Xterra (WD22) - 2WD
APPLIED ENGINE: KA24DE only
SERVICE INFORMATION If an applied vehicle exhibits a whine noise at or around 3,000 engine
RPM, the cause may be the air conditioning (A/C) idler pulley. Use the service procedure listed
below to diagnose and correct the incident.
SERVICE PROCEDURE
1. Run the engine at or around 3,000 RPM with the A/C ON and OFF to determine when the whine
noise occurs.
NOTE:
The A/C will operate with the A/C button turned off if the mode selector is in the foot/defrost or
defrost position and the fan is turned on. To ensure the A/C is off, move the fan speed selector to
the off position.
A. If the whine noise occurs with the A/C off (A/C compressor not operating), look for other sources
of the whine noise.
B. If the whine noise only occurs when the A/C is on (A/C compressor operating) and the noise can
be pin pointed to the idler pulley with a stethoscope or Chassis Ears(TM), proceed with step 2.
2. Remove the engine under cover.
3. Loosen (but do not remove) the nut that secures the idler pulley (see Figure 1).
4. Remove the E-ring from the idler pulley adjusting bolt (see Figure 1).
5. Remove the idler pulley adjusting bolt.
6. Remove the A/C compressor drive belt from the idler pulley.
Page 2734
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 8860
3. Open the driver's side door and locate the Seat Back Recline Control Handle at the side of the
driver's seat (see Figure 1)
4. Remove the screw that retains the handle and save it for reuse.
5. Remove the old handle.
6. Install the replacement handle and secure with the original screw.
7. Open the passenger's side door and locate the Seat back Recline Control Handle at the side of
the passenger's seat.
8. Repeat steps 4 through 6 above.
PARTS INFORMATION
CLAIMS INFORMATION
Submit a Campaign Line (CM) claim using the claims coding table shown.
Page 6951
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 575
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 7603
^ DO NOT push/pull on the tire to perform the caster sweep.
7. Make sure the steering wheel is centered when performing toe-in measurements and
adjustments.
NOTE:
If you are using a Hunter alignment machine equipped with the WinToe(R)-Adjustment System:
^ There is no need to lock the steering wheel. The WinToe(R) system is not affected by steering
system movement during the adjustment process.
^ Bumping the tire or re-centering the steering wheel when adjusting "near frozen" tie rods is not
necessary. This makes the adjustment process faster
and easier.
^ WinToe(R) eliminates the effect of lash in the steering system.
If you are using a John Bean alignment machine equipped with EZ Toe:
^ There is no need to lock the steering wheel. The EZ Toe system is not affected by steering
system movement during the adjustment process.
^ This software routine is an improved method of setting front toe, making it easier to obtain a
centered steering wheel.
^ With EZ Toe, it is possible to adjust toe with the steering wheel turned at any angle left or right.
This is helpful when setting toe on engine wall
mounted rack and pinion units.
IMPORTANT:
If during the alignment process the vehicle was lifted off of the rack; after lowering, make sure to
jounce (bounce) the vehicle before confirming adjustments are correct.
After you have checked and adjusted vehicle alignment
8. Print the BEFORE and AFTER measurements and attach them to the Repair Order.
9. Road test the vehicle to make sure the steering wheel is "centered" when driving on a straight
flat road.
Page 4325
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 1370
2. Position vehicle on the front turn plates as follows:
^ Stop vehicle just behind the turn plates.
^ Center the turn plates to the tires.
^ Move the vehicle onto the turn plates by turning/pushing the rear wheel.
DO NOT push/pull on the vehicle body.
Page 1007
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3438
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7400
Fuse Block-Fuse Arrangement
Page 2118
Page 3240
Throttle Position Sensor: Testing and Inspection
COMPONENT DESCRIPTION
The engine coolant temperature sensor is used to detect the engine coolant temperature. The
sensor modifies a voltage signal from the ECM. The modified signal returns to the ECM as the
engine coolant temperature input. The sensor uses a thermistor which is sensitive to the change in
temperature. The electrical resistance of the thermistor decreases as temperature increases.
Page 5107
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 4257
Ground Distribution
Page 1822
Axle Nut: Service and Repair Diagrams
Page 7070
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5352
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 1133
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1086
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4265
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3755
Page 4407
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor
COMPONENT INSPECTION Rear Heated Oxygen Sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "FUEL INJECTION" in
"ACTIVE TEST" mode, and select "RR O2 SENSOR" as the monitor item with CONSULT. (3)
Check "RR O2 SENSOR" at idle speed when adjusting "FUEL INJECTION" to ±25%.
"RR O2 SENSOR" should be above 0.56V at least once when the "FUEL INJECTION" is +25%.
"RR O2 SENSOR" should be below 0.54V at least once when the "FUEL INJECTION" Is -25%.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (56) (sensor signal) and (32) (ECM ground). (3) Check the voltage when racing up
to 4,000 rpm under no load at least 10 times.
(Depress and release accelerator pedal as soon as possible.) The voltage should be above 0.56V
at least once. If the voltage is above 0.56V at step 3, step 4 is not necessary.
(4) Check the voltage when racing up to 5,000 rpm under no load. Or keep vehicle at idling for 10
minutes, then check the voltage. Or check the
voltage when coasting from 80 km/h (50 MPH) in 3rd gear position (M/T), D position with "OD" OFF
(A/T). The voltage should be below 0.54V at least once.
Page 4855
3. Directly above this 25 mm hole, drill one 8 mm (0.31 in.) hole in the inside edge of the vehicle
bed rail (see Figure 3).
4. Deburr both drilled holes and coat the bare metal surfaces with an anti-corrosive paint.
5. Install the rubber grommet (from the kit) into the 25 mm drilled hole.
6. Install the metal breather tube into the grommet and fasten the upper plastic bracket to the bed
rail through the 8 mm drilled hole with the bolt and nut from the kit (see Figure 4).
Installation of the EVAP System
1. Install the EVAP canister.
2. Install the EVAP vent control valve.
3. Reconnect the two small diameter original hoses to the canister.
4. Reconnect the vent control valve electrical harness.
Locations
Keyless Entry Module: Locations
Passenger Compartment (Part 1 Of 2)
Page 3648
Optional Splice
Example Diagrams
Page 3436
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 4738
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 7132
Brake Caliper: Service and Repair Overhaul
COMPONENTS
DISASSEMBLY
1. Push out pistons and dust covers with compressed air. Use a wooden block so that both pistons
come out evenly.
WARNING: DO NOT PLACE YOUR FINGERS IN FRONT OF PISTON.
CAUTION: ^
Do not scratch or score cylinder wall.
^ CL28VD type front disc brake uses plastic pistons, handle them carefully.
2. Remove piston seals with a suitable tool.
INSPECTION
Cylinder Body Check inside surface of cylinders for scores, rust, wear, damage or presence of foreign objects. If
any of the above conditions are observed, replace cylinder body.
- Minor damage from rust or foreign objects may be eliminated by polishing the surface with a fine
emery sandpaper. Replace cylinder body if necessary.
CAUTION: Use brake fluid to clean. Never use mineral oil.
Piston
Page 4736
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7565
^ If the wander occurs during this test, reinstall the customer's wheels and continue with step 3.
3. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Adjust toe-in to specification. Determine if the caster setting is in the correct range and
is equal from side to side, then refer to the vehicle information below.
Passenger Cars Quest and 1996-later Pathfinders
^ If the caster setting is correct perform the Steering Rack Sliding Force Measurement procedure
below.
^ If the caster setting is not correct determine the cause and repair as necessary.
Frontier/Xterra/Truck 1995 and earlier Pathfinder
^ Adjust the caster setting equally on both sides of the vehicle to the high end of the specified
range.
Steering Rack Sliding Force Measurement Procedure
1. Disconnect tie-rod ends from the left and right steering knuckles using J-24319-B.
2. Start the engine and warm it to operating temperature.
3. Turn the steering wheel from lock to lock several times to circulate the fluid then return the
steering wheel to the center position.
4. Pathfinder (R50) only: Disconnect the steering column lower shaft from the rack pinion.
NOTE:
Do not turn the steering wheel after the steering column lower shaft is disconnected as this will put
the steering column lower shaft and rack pinion out of phase.
5. Connect a spring scale to one tie-rod (see Figure 4).
6. With the engine idling and the steering centered, slowly pull the spring scale until the tie-rod
begins to move. Pull slowly at a rate of 3.5 mm per second (0.138 in/sec).
7. Read the value on the spring scale after the tie-rod begins to move. Repeat steps 5 and 6 two or
three times from the left and right side of the vehicle. Be sure to center the steering wheel each
time. Write down the value each time.
Page 7749
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1261
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 4249
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3594
Coolant Temperature Sensor/Switch (For Computer): Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Specifications
Hydraulic Control Assembly - Antilock Brakes: Specifications
TIGHTENING SPECIFICATIONS
Horizontal Mounting Nuts
.......................................................................................................................................... 10.8 - 14.7
Nm (96 - 132 inch lbs.) Vertical Mounting Bolts
................................................................................................................................................ 17.7 23.5 Nm (13 - 17.4 ft. lbs.)
Diagram Information and Instructions
Leak Detection Sensor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 7410
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
A/C - New Connections & O-Rings
A/C Coupler O-ring: All Technical Service Bulletins A/C - New Connections & O-Rings
Classification: HA97-O12
Reference: NTB98-005
Date: February 1, 1998
NEW A/C CONNECTION 0-RINGS
APPLIED VEHICLES: All Nissan (except Quest)
SERVICE INFORMATION
This service bulletin identifies differences in A/C 0-rings as they apply to the NEW and FORMER
type A/C connections.
The NEW type connection has a groove in the tube end in which the 0-ring is seated. The
FORMER type connection does not have a groove but instead has an inflated portion on the tube
end to support the 0-ring. Refer to Figure 1 for illustrations identifying each connection type.
Diagnostic Procedure
Blower Motor: Testing and Inspection Diagnostic Procedure
INSPECTION FLOW
SYMPTOM: Blower motor does not rotate.
Page 6703
MATERIAL SAFETY DATA SHEET
PARTS INFORMATION
CLAIMS INFORMATION
Specifications
Intake Air Temperature Sensor: Specifications
Resistance 2.1 - 2.9 K ohms at 68 deg F
0.27 - 0.38 K ohms at 176 deg F
Page 7477
Fusible Link: Diagrams
Fusible Link
A melted fusible link can be detected either by visual inspection or by feeling with finger tip. If its
condition is questionable, use circuit tester or test lamp.
CAUTION:
^ If fusible link should melt, it is possible that critical circuit (power supply or large current carrying
circuit) is shorted. In such a case, carefully check and eliminate cause of problem.
^ Never wrap outside of fusible link with vinyl tape. Important: Never let fusible link touch any other
wiring harness, vinyl or rubber parts.
Page 6586
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5808
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 7966
7. After the tire/wheel is balanced, apply an index mark to the tire at the location of the valve stem
(see Figure 6).
^ This index mark will allow you to tell if the tire has slipped on the rim (see Figure 7).
Tire to Rim Slippage:
^ Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs, the tire
may become un-balanced.
^ Overtime the tire lubricate will dry, eliminating the lubricant as a cause of tire slippage.
^ Some tire lubricants may require up to 24 hours to completely dry.
^ If slippage occurs, the tire/wheel will need to be re-balanced.
WORK - AID AVOID CUSTOMER RETURNS FOR VIBRATION
Page 6418
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1928
Page 8233
Control Module HVAC: Testing and Inspection Thermo Control Amp. Check
POWER SUPPLY CIRCUIT CHECK
Check power supply circuit for thermo control amp. with ignition switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect voltmeter from harness side. 3.
Measure voltage across terminal (1) and body ground.
GROUND CIRCUIT CHECK
Check body ground circuit for thermo control amp. with ignition switch ON, air conditioner switch
ON and fan switch ON.
1. Disconnect thermo control amp. harness connector. 2. Connect ohmmeter from harness side. 3.
Check for continuity between terminal No. (2) and body ground.
If the ground circuit is NG, check the following.
- A/C switch
- Fan switch
- Harness for open or short between thermo control amp. and A/C switch
- Harness for open or short between A/C switch and fan switch
- Fan switch ground circuit.
Page 4394
EC-RRO2/H-01 Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Diagrams
Rear Heated Oxygen Sensor Heater (DTC: P0141)
Circuit Connectors
High Voltage
Page 8726
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2436
Fuel Pump Relay: Connector Locations
Main Harness (Part 1 Of 2)
Page 914
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4160
Air Flow Meter/Sensor: Connector Views
Mass Air Flow Sensor (MAFS) DTC: (P0100)
Circuit Connectors
Page 6135
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6163
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Spark Plug Torque Values
Spark Plug: Specifications Torque
Torque
Spark plug torque 14-22 ft. lb
Page 5745
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 188
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2906
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 7223
Brake Fluid: Testing and Inspection
- Check fluid level in reservoir tank. It should be between Max and Min lines on reservoir tank.
- If fluid level is extremely low, check brake system for leaks.
- If the brake warning lamp comes on, check brake fluid level switch and parking brake switch.
Diagram Information and Instructions
Power Steering Pressure Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9580
Turn Signal Switch: Service and Repair
- Each switch can be replaced without removing combination switch base.
COMBINATION SWITCH BASE REMOVAL
- To remove combination switch base, remove base attaching screws.
- Before installing the steering wheel, align the turn signal cancel tab with the notch of combination
switch.
Page 5232
Description (Part 1 Of 2)
Page 3506
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 399
Type Of Standardized Relays (Part 2 Of 2)
Page 1850
WHEEL HUB AND ROTOR DISC
REPLACEMENT
1. Remove free running hub assembly. (4WD)
Refer to Locking Hub / Service and Repair.
Locations
Key Reminder Switch: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 4656
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5357
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 4965
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Instruments - Fuel Gauge Inaccurate
Grounding Point: Customer Interest Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
Page 3322
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4001
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3238
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 4245
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3069
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5056
Leak Detection Sensor: Testing and Inspection
COMPONENT INSPECTION EVAP Control System Pressure Sensor
1. Remove EVAP control system pressure sensor with its harness connector connected. 2.
Remove hose from EVAP control system pressure sensor. 3. Use pump to apply vacuum and
pressure to EVAP control system pressure sensor as shown in figure. 4. Check output voltage
between ECM terminal (62) and engine ground.
CAUTION: Always calibrate the vacuum pump gauge when using it.
- Do not apply vacuum below -20 kPa (-150 mmHg, -5.91 inHg) or pressure over 20.0 kPa (150
mmHg, 5.91 inHg).
5. If NG, replace EVAP control system pressure sensor.
Page 5363
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2533
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 8414
CAUTION:
Do not use pliers to squeeze or compress the button halves together. This can scratch and/or
damage the button.
7. Using water pump pliers, tighten the adjustable wrench. Compress the button to approximately
0.2 in. (5.4-5.8 mm) thickness (see Figure 4).
8. Make sure the center pin of the button is securely crimped to hold the other half of the button in
place (see Figure 2).
9. Confirm that the seat belt latch plate cannot slide past the button and it is held at shoulder height
when the seatbelt is retracted.
NOTE:
When this incident occurs, both front driver's and passenger's seat belt "D" rings must be cleaned
and "refurbished" (renewed) using the following procedural steps.
Clean "D" Ring, Install Fluorine Resin Tape
NOTE:
For 1996-99 Pathfinders built before December, 1998, see bulletin NTB00-003 for additional front
seat belt retractor assembly information.
1. Pull the affected seat belt more than 20 inches (500 mm) out of the B pillar seat belt retractor
mechanism (see Figure 5).
2. Attach a binder clip (or similar clamping device) to the seat belt at the base of the retractor
mechanism to allow for slack in the seat belt (see Figure 5).
CAUTION:
Be careful not to damage the seat belt fabric when attaching or removing the clip.
3. Insert the "D" ring cleaning wire (provided in the kit listed in the PARTS INFORMATION section
of this bulletin) under the seat belt, between the belt and the "D" ring (see Figure 6).
Page 6498
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 29
Engine Compartment
Engine Compartment
Page 5970
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3849
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2382
40. Operate the ignition as shown in Figure 19.
NOTE:
For Hybrid vehicles, ignition ON = dash warning lights ON and the "READY" light OFF.
^ The above ignition cycle will reset ECM self learned Data.
41a. For Hybrid vehicles, skip to step 42.
41b. Start the engine and check the idle speed.
^ If idle speed is too low, perform Idle Air Volume Learning (IAVL). See the appropriate Service
Manual (ESM) for this procedure.
NOTE:
If the engine will not idle, hold the engine RPM at about 2000, then slowly bring it down to an idle.
IAVL can now be performed.
42. Test drive the vehicle; make sure it is operating correctly and the Check Engine light is OFF.
^ If the Check Engine light comes ON; diagnosis, repair, and erase DTCs.
Page 2087
7. Install distributor, aligning as shown in Figure 10.
8. Install vacuum hoses, electrical harnesses and connectors.
Page 9235
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 670
EC-FRO2-01 Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Diagrams
Front Heated Oxygen Sensor (Response Monitoring) (Front HO2S) (DTC: P0133)
Circuit Connectors
Heater
Page 4906
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 2390
Optional Splice
Example Diagrams
Page 2340
^ Titania 02 sensors use the smaller 12 mm diameter tool: J-43897-12.
3. Make sure that the tool is clean of all debris from prior usage.
4. Liberally apply the anti-seize compound, specified in the Parts Information section of this bulletin,
into the flutes (see Figure 1) of the thread repair tool.
CAUTION:
Only use the anti-seize material specified. Other materials may chemically damage the 02 sensor.
5. Carefully screw the thread repair tool into the exhaust tube, exhaust manifold, or catalytic
converter by hand. It needs to be installed until the tool's taper is fully inserted within the internal
thread of the exhaust tube, exhaust manifold, or catalytic converter.
CAUTION:
Ensure the tool goes in straight.
6. After the thread has been adequately started by hand, a tool such as a socket or wrench can be
used to continue the removal of the material.
^ When only light removal of material is needed, screw the thread repair tool in until the cutting
surface of the mating surface shave cylinder (see Figure 1) touches the sealing surface for the 02
sensor. Then turn it one full turn further.
^ When there is a lot of material to be removed, occasionally back off the tool to remove
accumulated material from around the tool before continuing.
CAUTION:
Do not expect the tool to screw in to an absolute stop. The tool's spring and mating surface shave
cylinder will rotate until the spring is completely compressed.
7. Wipe the threads of the exhaust tube, exhaust manifold, or catalytic converter to remove any
debris or anti-seize before replacing the 02 sensor.
NOTE:
If the 02 sensor could not be removed or there is permanent damage to the internal threads, it will
be necessary to replace the exhaust tube, exhaust manifold, or catalytic converter.
8. Install the 02 sensor and confirm that there is no exhaust leak from the mating surface of the 02
sensor to the exhaust tube, exhaust manifold, or catalytic converter. If there is leakage, then there
may have been permanent damage to internal threads. This would require replacement of the
exhaust tube, exhaust manifold, or catalytic converter.
9. Completely clean the anti-seize compound and metal debris from the tool to ready it for its next
use.
PARTS INFORMATION
Page 9513
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Testing and Inspection
Wiper Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 5630
Air Flow Meter/Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 3785
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6638
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 8528
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2269
Description (Part 1 Of 2)
Page 1910
Water Pump and Thermostat Housing
REMOVAL AND TIGHTENING SEQUENCES
Intake Manifold, Exhaust Manifold and Throttle Body
Page 3028
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 3765
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 5642
Air Flow Meter/Sensor: Testing and Inspection
COMPONENT INSPECTION Mass air flow sensor
1. Turn ignition switch "ON". 2. Start engine and warm it up to normal operating temperature.
3. Check voltage between terminal (54) and ground. 4. If the voltage is out of specification,
disconnect mass air flow sensor harness connector and connect it again. Repeat above check.
5. If NG, remove mass air flow sensor from air duct. Check hot wire for damage or dust.
Page 5650
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 668
EC-FRO2/H-01 Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Diagrams
Front Heated Oxygen Sensor Heater (DTC: P0135)
Circuit Connectors
High Voltage
Page 4071
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Locations
Idle Up Control Valve: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 1425
^ Apply the brakes as shown.
^ Start the engine to allow brake boost.
^ Turn the engine OFF,
^ Remove all lock pins-front "turn plates" and rear "slide plates".
^ Make sure the bridge plate will not interfere with movement of the turn plate.
Put the bridge plate in the down position.
^ Perform caster sweep by turning the steering wheel from outside the vehicle.
Page 6579
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 1535
Page 9166
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 1738
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 7165
4. Apply multipurpose grease to each bearing cone. 5. Pack grease seal lip with multipurpose
grease, then install it into wheel hub with suitable drift.
Page 6185
Description (Part 1 Of 2)
Page 451
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Ignition - Distributor Rotor Replacement
Ignition Rotor: Technical Service Bulletins Ignition - Distributor Rotor Replacement
Classification: EC97-002a
Reference: NTB97-004a
Date: May 19, 1999
DISTRIBUTOR ROTOR REPLACEMENT
This amended version of NTB97-004 adds B14, D21, WD22, and L30 information to the Applied
Vehicles section. Please discard all paper copies of NTB97-004.
APPLIED VEHICLES: 1995-1999 Sentra (B14) - GA16DE Engine only 1995-1998 200SX (B14) GA16DE Engine only 1990-97 Truck (D21) - KA24 Engines only 1998-2000 Frontier (D22) KA24DE Engine only 1998-2000 Altima (L30) - All 2000 Xterra (WD22) - KA24DE Engine only
SERVICE INFORMATION Distributor rotors are now available as replacement parts for the
vehicles listed in the Applied Vehicles section of this bulletin. Order them as P/N 22157-4B000.
CAUTION:
The rotor hold-down screw securing the distributor rotor to the distributor shaft must be torqued to
32 +/- 3 in-lb (37 +/- 3 kg-cm). If not secured to the proper torque the rotor may come loose causing
the engine to stop without warning.
PARTS INFORMATION
Page 1199
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 3249
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 634
ECCS Component Parts Location
ECCS Component Parts Location
Page 4390
Oxygen Sensor: Electrical Diagrams
Circuit
EC-FRO2-01 Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Diagrams
Front Oxygen Sensor (Circuit) (Front HO2S) (DTC: P0130)
Circuit Connectors
Heater
Page 6352
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 4162
Air Flow Meter/Sensor: Description and Operation
COMPONENT DESCRIPTION
The mass air flow sensor is placed in the stream of intake air. it measures the intake flow rate by
measuring a part of the entire intake flow. It consists of a hot wire that is supplied with electric
current from the ECM. The temperature of the hot wire is controlled by the ECM a certain amount.
The heat generated by the hot wire is reduced as the intake air flows around it. The more air, the
greater the heat loss. Therefore, the ECM must supply more electric current to maintain the
temperature of the hot wire as air flow increases. The ECM detects the air flow by means of this
current change.
Page 5944
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3271
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6095
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 9300
Dome Lamp: Connector Views
MODELS WITH POWER DOOR LOCKS
Interior Room Lamp (Part 1 Of 3)
Interior Room Lamp (Part 2 Of 3)
Interior Room Lamp Circuit Connectors
MODELS WITHOUT POWER DOOR LOCKS
Interior Room Lamp (Part 3 Of 3)
Interior Room Lamp Circuit Connectors
Page 258
Wheel Speed Sensor: Locations
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 7909
TRANSFER CASE DIAGNOSTIC TABLE
Steering/Suspension - Wheel Bearing Collision Damage
Wheel Bearing: Technical Service Bulletins Steering/Suspension - Wheel Bearing Collision
Damage
Classification: FA10-006
Reference: NTB10-126
Date: October 21, 2010
WHEEL BEARING COLLISION DAMAGE
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
Impacts to wheel bearings (such as a collision or other suspension damage) may create slight
indents in the bearing surfaces. These indents may not be visible but can cause bearing noise.
NOTE:
Hub/bearing replacement due to impact (collision or other suspension damage) is not a
warrantable repair
If a vehicle has visible wheel or suspension damage due to impact (collision or other suspension
damage), it is recommended that the wheel bearing assembly be inspected as follows:
1. Remove the hub/bearing assembly from the vehicle.
2. Hold the hub/bearing assembly with both hands.
3. Rotate the hub/bearing assembly in both directions (clockwise and counterclockwise).
4. If any gritty or rough feeling is detected in the bearing replace it with a new one.
Page 3763
Description (Part 1 Of 2)
Page 279
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 8979
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 955
Type Of Standardized Relays (Part 2 Of 2)
Page 7998
Axle Nut: Specifications Axle / Bearing Lock Nut
TIGHTENING SPECIFICATIONS
Mounting Screws .................................................................................................................................
.................................. 49 - 69 Nm (36 - 51 ft. lbs.)
Page 484
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7358
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Blower Motor Relay: Locations
Passenger Compartment (Part 1 Of 2)
Page 6338
40. Operate the ignition as shown in Figure 19.
NOTE:
For Hybrid vehicles, ignition ON = dash warning lights ON and the "READY" light OFF.
^ The above ignition cycle will reset ECM self learned Data.
41a. For Hybrid vehicles, skip to step 42.
41b. Start the engine and check the idle speed.
^ If idle speed is too low, perform Idle Air Volume Learning (IAVL). See the appropriate Service
Manual (ESM) for this procedure.
NOTE:
If the engine will not idle, hold the engine RPM at about 2000, then slowly bring it down to an idle.
IAVL can now be performed.
42. Test drive the vehicle; make sure it is operating correctly and the Check Engine light is OFF.
^ If the Check Engine light comes ON; diagnosis, repair, and erase DTCs.
Page 2419
Page 8976
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3971
Oxygen Sensor: Testing and Inspection Rear Heated Oxygen Sensor
COMPONENT INSPECTION Rear Heated Oxygen Sensor
With CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Select "FUEL INJECTION" in
"ACTIVE TEST" mode, and select "RR O2 SENSOR" as the monitor item with CONSULT. (3)
Check "RR O2 SENSOR" at idle speed when adjusting "FUEL INJECTION" to ±25%.
"RR O2 SENSOR" should be above 0.56V at least once when the "FUEL INJECTION" is +25%.
"RR O2 SENSOR" should be below 0.54V at least once when the "FUEL INJECTION" Is -25%.
OR
Without CONSULT
(1) Start engine and warm it up to normal operating temperature. (2) Set voltmeter probes between
ECM terminals (56) (sensor signal) and (32) (ECM ground). (3) Check the voltage when racing up
to 4,000 rpm under no load at least 10 times.
(Depress and release accelerator pedal as soon as possible.) The voltage should be above 0.56V
at least once. If the voltage is above 0.56V at step 3, step 4 is not necessary.
(4) Check the voltage when racing up to 5,000 rpm under no load. Or keep vehicle at idling for 10
minutes, then check the voltage. Or check the
voltage when coasting from 80 km/h (50 MPH) in 3rd gear position (M/T), D position with "OD" OFF
(A/T). The voltage should be below 0.54V at least once.
Page 2550
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 746
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 8023
Wheel Hub (Locking): Specifications
Page 6077
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1955
Piston Ring: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Specifications
Page 20
Engine Compartment
Engine Compartment
Page 3084
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4403
Oxygen Sensor: Description and Operation Rear Heated Oxygen Sensor Heater
SYSTEM DESCRIPTION
The ECM performs ON/OFF control of the rear healed oxygen sensor heater corresponding to the
engine speed.
OPERATION
Page 9236
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3264
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 5269
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9488
Component Parts And Harness Connector Location
Locations
Absolute Pressure Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Oxygen Sensor - Thread Cleaning and Other Precautions
Exhaust Manifold: Technical Service Bulletins Oxygen Sensor - Thread Cleaning and Other
Precautions
Classification: TE98-005
Reference: NTB98-089
Date: November 15, 1998
02 SENSOR THREAD REPAIR FOR EXHAUST TUBE, EXHAUST MANIFOLD AND CATALYTIC
CONVERTER
APPLIED VEHICLE: All models with 02 sensors
SERVICE INFORMATION
When removing a front or rear 02 sensor, material may remain on the internal threads of the
exhaust tube, catalytic converter, or exhaust manifold. Special service tools (see Figure 1) are
available to clean the internal threads in such cases. This will minimize the need to replace these
components. These required special tools will be mailed separately.
Use this bulletin when replacing 02 sensors as part of the 1996 Maxima OBDII Campaign
(NTB98-073) or whenever there is a need to clean 02 sensor threads.
NOTE:
This tool is not to be used for tapping threads.
SERVICE PROCEDURE
CAUTION:
Always follow these general guidelines when servicing 02 sensors.
Do not apply severe shock to the sensor when installing it. Do not use an impact wrench for
installing it.
Discard any sensor that has been dropped.
Never attempt to clean an 02 sensor by applying solvent to it.
Anti-seize must only be applied to the threads, not the sensing element.
1. Remove the 02 sensor from the exhaust tube, exhaust manifold, or catalytic converter.
2. Select the correct thread repair tool based on the thread diameter of the removed 02 sensor (see
Figure 1).
^ Zirconia 02 sensors use the 18 mm diameter tool: J-43897-18.
Page 5711
Throttle Full Close Switch: Electrical Diagrams
EC-TP/SW-01 Closed Throttle Position Switch (DTC: P0510)
Circuit Diagrams
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 2356
Page 6570
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4638
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 4781
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 4471
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 560
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1434
Alignment: Specifications Caster
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 1°40' (1.67°) Nominal ......................................................................
............................................................................................................................. 2°10' (2.17°)
Maximum .............................................................................................................................................
.................................................... 2°40' (2.67°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Page 8868
Page 7949
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Engine Controls - Idle, Base Idle & Timing, Startability
Technical Service Bulletin # 96-032 Date: 960417
Engine Controls - Idle, Base Idle & Timing, Startability
Classification: EC96-004
Reference: NTB96-032
Date: April 17, 1996
ENGINE CRANKS, BUT WILL NOT START OR IS HARD TO START
APPLIED VEHICLE: All
SERVICE INFORMATION
This bulletin has been developed to address complaints of an engine which cranks over normally,
but is difficult to start or will not start at all.
Service Procedure
1. Connect CONSULT. If the vehicle you are working with is not CONSULT compatible, connect a
tachometer (digital readout if possible).
2. Start the engine (the accelerator may have to be opened and/or the fuel pump fuse removed
during cranking to get the engine to start), and warm it to operating temperature.
Note: If the engine will not start after performing the above procedure, clean and dry the spark
plugs, and attempt to start the engine again.
3. Run the engine at 2000 rpm (no load) for two minutes. Then shut the engine off.
4. Check the oil level and correct if necessary (between the "L" and "H" marks on the dipstick). If
the oil level is overfull and has a gasoline odor, change the oil and filter before performing this
procedure. If the crankcase is overfull with oil, idle speed adjustment may be affected.
5. Disconnect the throttle position sensor (TPS) connector. Now re-start the engine.
Note: When the engine is in this condition (TPS disconnected), the IACV-AAC valve and the
ignition timing are held in a "fixed" position, and the idle speed is called "base idle." If the engine
stalls with the TPS disconnected, the base idle speed is adjusted too low. Temporarily increase the
base idle speed by turning the adjusting screw on the IACV-AAC valve until the engine will idle.
Note: On 1989-1994 Maxima's (J30) with VG30E engine the IACV-AAC valve is a "stepper motor"
type valve. To set base idle on these vehicles, set the ECCS ECM mode screw fully "clockwise".
This will close the IACV-AAC valve completely to allow base idle speed adjustment. Return the
ECCS ECM mode screw fully counter-clockwise after setting the base idle (see step 9).
6. Rev the engine 2-3 times to 2000-3000 rpm, then allow it to idle (all accessories "off").
7. Check the ignition timing with a timing light and adjust it to specification (if necessary).
Page 8174
Change the filter/dryer (see Figure 2) when 3OOlbs of refrigerant (approximately 150 cars) has
been recovered (display reads "CH-F") or sooner if the moisture indicator does not turn green
during recycling.
ACR4 Leak Check
Check the ACR4 for leaks every 3 months or as specified by state or local laws.
Weight Scale Platform Securing Screw
Make sure the weight scale platform securing screw is properly tightened.
Weight Scale Accuracy
Check the weight scale accuracy at a minimum of every 3 months (or sooner if the scale is
suspected to be inaccurate). Use the following procedure to check the scale accuracy.
1. Simultaneously press the "SHIFT/RESET" and "ENTER" buttons to get into the diagnostic mode
(see Figure 3).
2. Press "6" on the key pad to display the approximate scale platform weight
Page 6742
Ring Gear: Specifications Rear Differential
Page 3695
Page 4049
Optional Splice
Example Diagrams
Page 3861
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 6572
Ground Distribution
Page 3472
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Replacement
Brake Caliper: Service and Repair Replacement
COMPONENTS
WARNING: CLEAN BRAKE PADS WITH A VACUUM DUST COLLECTOR TO MINIMIZE THE
HAZARD OF AIRBORNE MATERIALS.
REMOVAL
1. Remove torque member fixing bolts and connecting bolt. 2. Remove brake hose retaining bolt.
INSTALLATION
1. Install caliper assembly.
2. Install brake hose to caliper securely.
Page 6712
1. Inspect the coffee filter for debris (see Figure 12).
A. If small metal debris less than 1 mm (0.040 inch) in size or metal powder is found in the coffee
filter, this is normal. If normal debris is found, the radiator/oil cooler can be re-used.
B. If one or more pieces of debris are found that are over 1 mm in size and/or peeled clutch facing
material is found in the coffee filter (see Figure 13), the oil-cooler is not serviceable. The radiator/oil
cooler must be replaced.
Final Inspection:
After performing all procedures, ensure that all remaining oil is cleaned from all components.
Page 3065
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5769
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 473
Camshaft Position Sensor: Electrical Diagrams
EC-CMPS-01 Camshaft Position Sensor (CMPS) (DTC: P0340)
Circuit Diagrams
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 6350
Description (Part 1 Of 2)
Page 7155
Codes that best describes the operations performed.
Disclaimer
Page 2822
Ground Distribution
Page 3220
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Key Reminder Switch: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 7711
Power Steering Line/Hose: Specifications Model PB59K
Power Steering Line Flare Nut
............................................................................................................................................... 39 - 51
Nm (29 - 38 ft. lbs.)
Page 6011
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 944
Ground Distribution
Page 1798
Disclaimer
Page 683
Oxygen Sensor: Testing and Inspection Front Heated Oxygen Sensor Heater
COMPONENT INSPECTION Front Heated Oxygen Sensor Heater
Check resistance between terminals (3) and (1).
Resistance: 2.3 - 4.3 ohms at 25°C (77°F)
Check continuity between terminals (2) and (1), (3) and (2). Continuity should not exist. If NG,
replace the front heated oxygen sensor.
CAUTION: Discard any heated oxygen sensor which has been dropped from a height of more than
0.5 m (19.7 in) onto a hard surface such as a concrete floor; use a new one.
Wheels/Tires - Tire Mounting Information
Tires: All Technical Service Bulletins Wheels/Tires - Tire Mounting Information
Classification: WT11-003
Reference: NTB11-029
Date: March 21, 2011
TIRE MOUNTING INFORMATION
APPLIED VEHICLES: All Nissan
SERVICE INFORMATION
^ When mounting tires to wheels, it is important that the tire bead is seated correctly.
^ A tire bead that is not seated correctly may cause a vehicle vibration.
^ High performance tires and tires with shorter sidewalls (low aspect tires) may require more care
to make sure the tire bead is seated correctly.
^ Follow the Tire Mounting Tips in this bulletin.
Tire Mounting Tips:
NOTE:
These tips are not intended to be a complete instruction for mounting tires to wheels. Make sure to
read and follow the instruction for your specific tire service equipment
1. Clean the tire bead with an approved rubber cleaning fluid.
^ Rubber cleaning fluid is a locally sourced common product used in the tire service process.
2. Clean the wheel (flange and bead seat area) see Figure 2 Make sure to clean off all rust and
corrosion.
Page 7634
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 7027
Torque Converter Clutch Solenoid: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6408
Ground Distribution
Page 4171
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2548
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2616
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 672
EC-RRO2-01 Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Diagrams
Rear Heated Oxygen Sensor (High Voltage) (Rear HO2S) (DTC: P0140)
Circuit Connectors
Maximum Voltage Monitoring
Page 5289
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2246
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 8921
Optional Splice
Example Diagrams
Page 6988
Main Shaft: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Transfer Case; Service and Repair; Transfer Case Overhaul.
Page 3117
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4185
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Service and Repair
Oil Pan: Service and Repair
REMOVAL
1. Raise vehicle and support it with safety stands. 2. Remove engine under cover. 3. Drain engine
oil.
4. Remove front final drive together with differential mounting member. 5. Remove front suspension
member.
6. Remove oil pan bolts.
7. Remove oil pan.
Page 213
Ignition Control Module: Description and Operation
COMPONENT DESCRIPTION Ignition Coil & Power Transistor
The ignition signal from the ECM is sent to the power transistor. The power transistor switches on
and off the ignition coil primary circuit. As the primary circuit is turned on and off, the proper high
voltage is induced in the coil secondary circuit.
Engine - Timing Chain/Front Cover Revised Procedure
Technical Service Bulletin # 98-094 Date: 981115
Engine - Timing Chain/Front Cover Revised Procedure
Classification: EM98-006
Reference: NTB98-094
Date: November 15, 1998
FRONTIER TIMING CHAIN/FRONT COVER REVISED SERVICE PROCEDURE
APPLIED ENGINE: KA24DE
PARTS INFORMATION
CLAIMS INFORMATION
Please reference the "Revision B" pages of the Nissan "1992-1999 Warranty Flat Rate Information
Manual", Section "AG", Op Codes AG14AA, AG143A, AG144A, AG22AA, and AG24AA. You will
note that the descriptions and Flat Rate Times applicable to the D22 vehicle for these Op Codes
have been revised to reflect this new procedure. Also note that Op Codes AG5OAA and AG504A
have been deleted.
Service Information
A revised service procedure for the engine front cover/timing chain has been adopted for the
KA24DE. It is no longer recommended to remove the cylinder head when removing the timing
chain/front cover(s). Utilize the following steps when servicing the front cover, timing chain, guides
or tensioner(s).
Caution
^ After removing the timing chain, do not turn the crankshaft and camshaft separately or the valves
will strike the piston heads.
^ When installing chain tensioners or other sliding parts, lubricate contacting surfaces with new
engine oil.
^ Apply new engine oil to bolt threads and seat surfaces when installing the camshaft sprockets
and the crankshaft pulley.
^ Do not spill engine coolant on the drive belts.
^ Please refer to the Service Manual for the correct tightening torque.
Removal of Upper Timing Chain
1. Remove the air cleaner assembly,
2. Remove the spark plug wires.
3. Set # 1 piston at TDC on its compression stroke.
4. Remove vacuum hoses, electrical harness, connectors, and harness clamps.
5. Remove the power steering belt.
6. Remove the power steering pump and position it to the side. Remove the idler pulley and
bracket as well.
7. Remove the rocker cover.
8. Remove camshaft sprocket cover.
Page 1842
TRANSFER CASE DIAGNOSTIC TABLE
Page 3744
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 3680
EGR Backpressure Transducer: Testing and Inspection
COMPONENT INSPECTION EGRC-BPT Valve
1. Plug one of two ports of EGRC-BPT valve. 2. Vacuum from the other port and check leakage
without applying any pressure from under EGR-BPT valve.
Leakage should exist.
Page 8994
Type Of Standardized Relays (Part 2 Of 2)
Page 4943
Description (Part 1 Of 2)
Page 4720
Throttle Position Sensor: Electrical Diagrams
EC-TPS-01 Throttle Position Sensor (DTC: P0120)
Circuit Diagrams
Throttle Position Sensor (DTC: P0120)
Throttle Position Sensor Circuit Connectors
Page 2292
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 5637
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1276
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 5941
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 2813
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3195
Throttle Full Close Switch: Connector Views
Closed Throttle Position Switch (DTC: P0510)
Closed Throttle Position Switch Circuit Connectors
Page 947
Leak Detection Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1809
Wheel Bearing: Testing and Inspection Rear Wheel Bearing
- Check that wheel bearings operate smoothly.
- Check axial end play.
Axial end play: 0 mm (0 inch)
Restraints - Seat Belt Retract Slowly
Seat Belt: All Technical Service Bulletins Restraints - Seat Belt Retract Slowly
Classification: RS01-001B
Reference: NTB01-005B
Date: November 12, 2009
"D" RING RESIDUE CAN CAUSE SLOW SEAT BELT RETRACTION
This bulletin amends NTB01-005a. Please discard all previous versions of this bulletin.
APPLIED VEHICLES
IF YOU CONFIRM
Seat belt retraction of front seat belt(s) is slow, caused by "residue" build-up on the "D" ring(s).
ACTION
Use the "D" ring cleaning and refurbishing kit to:
^ Clean the residue off of the "D" rings.
^ Apply fluorine resin tape to the "D" rings.
IMPORTANT:
The purpose of "ACTION" (above) is to give you a quick idea of the work you will be performing.
You MUST closely follow the entire Service Procedure as it contains information that is essential to
successfully completing the repair.
Page 4066
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 1658
Make sure the tank is properly positioned/seated (especially after moving the ACR4 machine) on
the scale platform and that it does not touch surrounding components (such as the back bar,
hoses, etc.). Also, make sure the weight scale platform securing screw is properly tightened.
Residual Refrigerant
Recover all residual refrigerant from the hoses before connection to the vehicle.
Residual Refrigerant Oil
Drain all refrigerant oil from the oil separator (see Figure 4) before recovering refrigerant. This
prepares the oil separator to measure the amount of oil removed during the recovery process.
Disturbing the ACR4 Machine
Do not disturb or touch the ACR4 machine when it is recovering or recharging as this will upset the
weight scale and cause the machine to record an inaccurate recovery amount and/or dispence an
incorrect charge.
Transfer All Refrigerant to Vehicle
Use the following steps to ensure all of the refrigerant charge is transferred to the vehicle's A/C
system.
1. When the display shows "CPL" (charge is complete), close the control panel high side valve
(both control panel high and low side valves should now be closed).
2. Start the vehicle and let the A/C run until the gauge readings stabilize. Check for cold air at the
vents.
3. With the compressor running, close the high side (red) coupler valve (on the end of the high side
hose) and disconnect it from the vehicle.
4. Open the control panel high and low side valves. This will allow the residual refrigerant to be
drawn into the vehicle's A/C system through the low (blue) hose.
5. Close the low side (blue) coupler valve (on the end of the low side hose) and disconnect it from
the vehicle.
NOTE: If your dealership purchases R134a in small, disposable (12 oz) cans, do not charge the
vehicle's A/C system with the can directly. Transfer the refrigerant from the small can to the ACR4
refrigerant tank (see page 17 of the ACR4 Operating Instruction Manual). Charging the A/C system
directly from the 12 oz refrigerant can (using a "can tap" gauge set) will not properly control the
weight of refrigerant being transferred. This will result in an overcharge or undercharge condition
and improper A/C performance.
Page 6049
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1405
Page 4378
Oxygen Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Diagram Information and Instructions
Throttle Full Close Switch: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 9543
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 9218
Brake Lamp: Connector Views
Stop Lamp
Circuit Connectors
Page 4264
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1031
Fuel Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION Tank fuel temperature sensor
Check resistance by heating with hot water as shown in the figure or a heat gun. If NG, replace
tank fuel temperature sensor.
Page 992
Type Of Standardized Relays (Part 2 Of 2)
Page 2896
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 2656
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 3234
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 16
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 4368
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 3246
Optional Splice
Example Diagrams
Page 3530
Type Of Standardized Relays (Part 2 Of 2)
Page 2817
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6404
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 4511
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9224
Component Parts And Harness Connector Location
Page 5075
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3750
Page 2197
Water Pump: Service and Repair
CAUTION: When removing water pump assembly, be careful not to get coolant on drive belts.
- Water pump cannot be disassembled and should be replaced as a unit.
- After installing water pump, connect hose and clamp securely, then check for leaks using radiator
cap tester.
REMOVAL
1. Drain coolant from engine. 2. Remove fan coupling with fan. 3. Remove power steering pump
drive belt, generator drive belt and A/C compressor drive belt. 4. Remove water pump.
INSPECTION
- Check body assembly for rust or corrosion.
- Check for rough operation due to excessive end play.
INSTALLATION
1. Use a scraper to remove liquid gasket from water pump.
- Also remove traces of liquid gasket from mating surface of cylinder block.
Page 7972
3. Apply an approved tire lubricant to the tire and wheel in the areas shown in Figures 1 and 2.
^ Tire lubricant is a locally sourced common product used in the tire service process
Tire:
^ Apply lube to the inner bead only of both beads
^ Do not apply lube to the flange area (outer bead area)
NOTE:
Too much tire lubricant may allow the tire to slip on the rim while driving. If this occurs the tire may
become un-balanced.
Wheel:
^ Apply lube to the Safety Humps and Bead Seating area.
^ Do not apply lube to the flange area
4. Before inflating the tire:
^ If there are "match-mount" marks on the tire and rim, align the marks.
Page 3047
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6154
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 8355
PARTS INFORMATION
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. Claims to Nissan for the repair of this
incident may be denied if the repairs are not performed exactly as outlined in this bulletin.
Service Procedure
NOTE:
DO NOT REPLACE the front driver's or passenger's seat belt assemblies before first using the
Service Procedure in this bulletin to:
^ Replace the missing/broken retaining button(s), and
^ Clean the "D" rings and install the fluorine resin tape on both seat belt assemblies.
Replace Missing/Broken Retaining Button
1. Make sure the seat belt is not 'twisted' by sitting in the seat and latching the seat belt. If the belt
is twisted, correct this before beginning button replacement.
2. Determine the original retaining button position.
CAUTION:
It is important that the replacement button be positioned on the seat belt exactly where the original
button was placed at the factory.
Page 6000
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 7101
Wheel Speed Sensor: Description and Operation
The sensor unit consists of a gear-shaped sensor rotor and a sensor element. The element
contains a bar magnet around which a coil is wound. The sensor is installed on the back of the
brake rotor and the back of the rear brake drum. As the wheel rotates, the sensor generates a
sine-wave pattern. The frequency and voltage increase(s) as the rotating speed increases.
Page 6194
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Engine - Drive Belt Noise Diagnosis
Drive Belt: All Technical Service Bulletins Engine - Drive Belt Noise Diagnosis
Classification: EM09-013
Reference: NTB10-002
Date: January 12, 2010
DRIVE BELT SYSTEM NOISE DIAGNOSIS
APPLIED VEHICLES All Nissan
IF YOU CONFIRM
There is noise coming from the drive belt(s), or drive belt pulley(s),
ACTION
Use the flow chart in this bulletin to help diagnose and identify the source / cause of the noise.
CLAIMS INFORMATION
Refer to the current Nissan Warranty Flat Rate Manual and use the indicated claims coding for any
repairs performed.
Page 5277
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 584
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 1369
^ Make sure the rear slide plates:
> Do not wobble (no up/down movement).
> Operate (slide) smoothly in all directions.
If there is any issue with the slide plate operation - have the equipment repaired before performing
any alignments.
5. Make sure the lock pins for the front "turn plates" and rear "slide plates" are in place.
NOTE:
Lock pins should remain in place until caster sweep.
The Alignment Process
The Alignment Process
IMPORTANT:
Use only the alignment specifications listed in the appropriate Service Manual when adjusting the
alignment.
1. Make sure the vehicle is straight on the alignment rack.
^ Vehicle must be straight (in line) with the alignment rack before entering the rack as shown in
Figure 4.
^ Do not straighten the vehicle while on the rack (see Figure 5).
^ If the vehicle needs to be straightened, exit the alignment rack, straighten the vehicle and then
re-enter the rack.
^ Once the vehicle is straight on the rack, do not turn/center the steering wheel-keep the front
wheels straight.
Page 6962
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Locations
Dome Lamp: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Page 1013
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Locations
Absolute Pressure Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 6425
Without Scan Tools
(1) Start engine and warm it up to normal operating temperature. (2) Perform test drive in "D"
position (OD "ON") at least 20 consecutive seconds under the following conditions.
Engine speed: Less than 2,150 rpm (Single cab model) Less than 2,300 rpm (King cab model)
Vehicle speed: 76 - 100 km/h (47 - 62 MPH)
(3) Stop the vehicle, turn ignition switch "OFF", wait at least 5 seconds and then turn "ON" (4)
Perform "Diagnostic Test Mode II (Self-diagnostic results)" with ECM.
DIAGNOSTIC PROCEDURE
COMPONENT INSPECTION Torque Converter Clutch Solenoid Valve
1. Check resistance between torque converter clutch solenoid valve terminals (1) and (3).
Resistance: Approximately 25 Ohms [at 25° C (77° F)]
2. Remove torque converter clutch solenoid valve. 3. Supply the solenoid valve terminals (1) and
(3) with battery voltage and check the solenoid valve operation. Torque converter clutch solenoid
valve should be operated.
4. If NG, replace torque converter clutch solenoid valve.
Page 6282
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3097
Optional Splice
Example Diagrams
Page 6042
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7387
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 2462
Ground Distribution
Page 7078
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 6014
Ground Distribution
Page 2647
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2394
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 734
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 422
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 8303
SRS Component Parts Location
Page 6213
Knock Sensor: Description and Operation
COMPONENT DESCRIPTION
The knock sensor is attached to the cylinder block. It senses engine knocking using a piezoelectric
element. A knocking vibration from the cylinder block is sensed as vibrational pressure. This
pressure is converted into a voltage signal and sent to the ECM. * Freeze frame data will not be
stored in the ECM for the knock sensor. The MIL will not light for knock sensor malfunction. The
knock sensor has one trip detection logic.
Page 7756
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 3622
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7555
Some freeways slope to both the left and right from the center. When driving on a freeway that
slopes in both directions, a vehicle may exhibit a small amount of drift to the left when driving in the
left lane and a small amount of drift to the right when driving in the right lane.
This bulletin does not address road crown issues because they are not vehicle related, although
the customer may incorrectly perceive them to be.
Description/Definition of Steering Wheel "Off-center" Condition
The steering wheel spokes are tilted to the left or right more than allowable (see example in Figure
2) when driving straight ahead on a straight flat road.
Allowable specifications for steering wheel off-center
^ All Nissan (except NV1500, 2500, and 3500): 2 mm or less.
^ NV1500, 2500, and 3500: 4 mm or less.
When driving straight on a highly crowned road, the steering wheel may be turned (off-center) to
counteract the affect of the road crown. When road testing for an off-center condition, the vehicle
should be driven on a straight flat road.
Although the vehicle does not pull in either direction, the customer may perceive that the vehicle
pulls because it will respond if he or she tries to bring the steering wheel back to center. This
condition can occur if the tie rod length is uneven (not adjusted correctly) from side to side.
Description/Definition of a Vehicle "Pull" Condition
The vehicle consistently drifts to one side while driving at a constant speed on a straight, flat road.
^ A vehicle is said to "pull" if it completes a lane change in less than 7 seconds (with no steering
correction from the driver) when driving at 60 MPH on
a road with less than 2 degrees of road crown slope. All four wheels must pass into the other lane
during this time (7 seconds).
Page 6240
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7140
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Page 5538
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 4286
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 6537
6. Disconnect the overdrive (O/D) switch connector located on the top of the steering column and
remove it from the mounting bracket using a door trim removal tool. (see Figure 4).
CAUTION:
Be careful not to break the connector or the bracket. If the bracket is unavoidably broken, see Step
22 of this procedure.
7. Expose the clevis pin by sliding back the rubber boot from the base of the shifter lever (see
Figure 5). Remove and retain the pin clip and the clevis pin.
8. Out the tie wrap that secures the overdrive switch wire to the main shifter pivot rod and remove
the shift lever from the A/T shifter assembly (see Figure 5).
NOTE:
The shift lever, pin and clip will be reused.
Page 1158
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3468
Description (Part 1 Of 2)
Page 3224
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 6659
- Check each valve spring for damage and deformation. Also measure free length and outer
diameter.
- Replace valve springs if deformed or fatigued.
Control Valves Inspection Check sliding surfaces of control valves, sleeves and plugs for damage.
Assembly
Page 286
Ground Distribution
Page 2232
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1201
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 5199
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Description and Operation
Electronic Brake Control Module: Description and Operation
CONTROL UNIT (Built-In ABS Actuator And Electric Unit)
The control unit computes the wheel rotating speed by the signal current sent from the sensor.
Then it supplies a DC current to the actuator solenoid valve. It also controls ON-OFF operation of
the valve relay and motor relay. If any electrical malfunction should be detected in the system, the
control unit causes the warning lamp to light up. In this condition, the ABS will be deactivated by
the control unit, and the vehicle's brake system reverts to normal operation.
Page 2400
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 3697
Page 593
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 3730
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6158
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7545
3. Road test the vehicle again. If the vehicle continues to pull in the same direction or in the
opposite direction continue with step 4.
4. Check the vehicle's wheel alignment using accurate and properly calibrated alignment
equipment. Record the caster, camber and toe-in measurements and refer to the vehicle
information below.
NOTE:
When performing a wheel alignment always use the steering wheel to change the position of the
road wheels. Turning the steering from the road wheel will affect the accuracy of the readings
provided by the alignment equipment.
Passenger Cars, Quest, and 1996-later Pathfinders
^ If the front wheel alignment is within specification perform the Steering Rack Sliding Force
Measurement procedure.
^ Caster and Camber are not adjustable on these models. In some cases the Caster and Camber
can be changed slightly by loosening related suspension component such as the upper strut mount
and lower link pivot and shifting the strut and lower link in the direction needed to bring it into
alignment. If the front wheel alignment is still out of specification, it is likely a component is bent.
Determine the cause and repair as necessary.
^ Adjust the toe-in to specification.
Frontier/Xterra/Truck/1995 and earlier Pathfinder
^ Adjust the camber to be equal on both sides of the vehicle.
^ Adjust the caster equally on both sides of the vehicle to the high end of the specified range and
road test to determine if the pull is corrected. If the vehicle continues to pull, adjust the left and right
side caster as indicated below to compensate for the pull.
^ Adjust the toe-in to specification.
Effects of caster setting on vehicle pull
^ If the left front caster setting is higher than the right front, the car will pull to the right.
^ If the right front caster setting is higher than the left front, the car will pull to the left.
Steering Wheel Off-Center Diagnosis And Repair
1. Position the vehicle on an alignment rack.
2. Set the road wheels in the straight ahead position.
3. Loosen the tie-rod lock nuts and rotate the left and right tie-rods an equal amount in opposite
directions. This will center the steering wheel. If the steering wheel off-center increases, reverse
the direction you are turning the tie rods.
4. Use the alignment equipment to verify and adjust the toe-in.
5. Verify the steering wheel is centered.
^ If the steering wheel is centered and the toe-in is correct, the procedure is complete.
^ If the steering wheel is still off-center or the toe-in is incorrect, repeat steps 2, 3, 4, 5.
Steering Wander Diagnosis And Repair
1. Determine if the vehicle is equipped with the tires and wheels originally supplied on the vehicle.
^ If the tires and wheels are original go to step 3.
^ If the vehicle has aftermarket wheels or Nissan wheels that are different from those specified for
the vehicle, go to step 2.
2. Temporarily exchange the wheels and tires for wheels and tires of the same type and size that
were originally specified for the vehicle. Road test the vehicle to determine if the wander condition
still occurs.
^ If the wander condition is eliminated by this test, advise the customer that the wander is a result
of the incorrect wheel assemblies. It will be necessary to replace them with the correct wheels to
eliminate the wander condition.
Page 1130
Ground Distribution
Page 8593
M65, E43 Super Multiple Junction Terminal Arrangement
Page 7787
Steering Wheel: Service and Repair
REPLACEMENT
Refer to the illustrations when servicing, noting the following:
1. Remove air bag module and spiral cable. Refer to Air Bags and Seat Belts.
2. Disconnect horn connector and remove steering wheel nut.
3. Remove steering wheel using steering wheel puller tool No. ST27180001, or equivalent.
Page 7074
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5987
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Diagram Information and Instructions
Ignition Ballast Resistor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 4030
CAUTION
4. Turn the ignition ON with the engine OFF.
^ The engine must be OFF (not running) during the reprogramming procedure.
^ For Hybrid vehicles, Make sure the dash warning lights are ON and the "READY" light is OFF.
^ Turn OFF all vehicle electrical loads such as exterior lights, interior lights, HVAC, blower, rear
defogger, audio, NAVI, seat heater, steering wheel
heater, etc.
CAUTION
5. Make sure the engine cooling fan(s) are not running.
If the cooling fans are running:
a. Turn the ignition OFF.
b. Wait for the engine to cool.
c. Turn the ignition ON (with engine OFF).
d. Make sure the engine cooling fans are not running.
6. Open / start ASIST on the C-III computer.
7. Select CONSULT Utilities, CONSULT-III, and Wait for the "Detecting VI/MI in progress"
message to clear.
Page 9132
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 6127
Ground Distribution
Page 5524
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3347
Knock Sensor: Electrical Diagrams
EC-KS-01 Knock Sensor (KS) (DTC: P0325)
Circuit Diagrams
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 5110
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Specifications
Power Steering Fluid Reservoir: Specifications
TIGHTENING SPECIFICATIONS
Bracket Mounting Bolts
.......................................................................................................................................................... 3
- 4 Nm (26 - 35 inch lbs.) Reservoir Tubes To Hoses
.......................................................................................................................................... 2.5 - 3.4
Nm (21.7 - 30.4 inch lbs.)
Diagram Information and Instructions
Transmission Shift Position Indicator Lamp: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 495
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2617
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 3423
7. Determine replacement adjusting shim size as follows.
a. Using a micrometer determine thickness of removed shim. b. Calculate thickness of new
adjusting shim so valve clearance comes within specified values.
R = Thickness of removed shim N = Thickness of new shim M = Measured valve clearance
Intake & Exhaust: N = R + [M - 0.37 mm (0.0146 inch)]
Shims are available in thicknesses from 1.96 mm (0.0772 inch) to 2.68 mm (0.1055 in), in steps of
0.02 mm (0.0008 inch).
c. Select new shim with thickness as close as possible to calculated value.
8. Install new shim using a suitable tool.
- Install with the surface on which the thickness is stamped facing down.
9. Place Tool (A) as mentioned in steps 2 and 3.
10. Remove Tool (B). 11. Remove Tool (A). 12. Recheck valve clearance.
Page 8465
Air Bag Deactivation Switch: Description and Operation
Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
The vehicle is equipped with a passenger air bag deactivation switch which can be operated by the
customer. When the switch is turned to the ON position, the passenger air bag is enabled and
could inflate in a frontal collision. When the switch is turned to the OFF position, the passenger air
bag is disabled and will not inflate in a frontal collision.
After turning the ignition switch ON, a passenger air bag deactivation switch indicator illuminates on
the instrument panel for bulb check. The indicator will stay lit if the passenger air bag deactivation
switch is in the OFF position. If the passenger air bag deactivation switch is in the ON position, the
indicator will turn off after about 7 seconds.
After SRS maintenance or repair, make sure the passenger air bag deactivation switch is in the
same position (ON or OFF) as when the vehicle arrived for service.
Activation / Deactivation Passenger Air Bag
If the passenger air bag deactivation switch indicator operation does not correspond to ON/OFF
operation of the passenger air bag deactivation switch, perform self-diagnoses for SRS and repair
according to the self-diagnostic failure. Refer to "SRS Operation Check".
If no self-diagnostic failure is detected, replace the passenger air bag deactivation switch including
the key cylinder.
Page 386
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 606
Ground Distribution
Page 2527
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 6706
Chart A & B
Cooler Inlet And Outlet Locations
Cooler Cleaning (in radiator)
CAUTION:
You must refer to Charts A and B to determine the location of the oil cooler inlet and outlet hoses
for the vehicle your working on.
If these hoses are not identified correctly, debris may be left in the cooler and transmission damage
may occur.
1. Place an oil drain pan under the automatic transmission cooler Inlet and Outlet hoses.
Page 5721
Throttle Position Sensor: Specifications
Completely Closed Approx. 0.5 K ohms at 77 deg F
Partially Open 0.5 - 4.0 K ohms at 77 deg F
Comqletely Open Approx. 4.0 K ohms at 77 deg F
Page 5673
Type Of Standardized Relays (Part 2 Of 2)
Page 7059
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7062
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 6211
Knock Sensor: Connector Views
Knock Sensor (KS) (DTC: P0325)
Knock Sensor (KS) Circuit Connectors
Page 1344
SPECIAL TOOLS
Page 9223
Brake Light Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Page 1095
Ground Distribution
Page 4846
1. Remove the spare tire.
2. Remove the EVAP canister.
3. Remove the hose between the EVAP vent control valve and the crossframe member (the largest
diameter hose in the rearward position).
4. Check the EVAP control valve. Air should pass through the valve passage when voltage is not
applied.
A. Apply battery voltage to the valve and make sure the air passage closes (see Figure 1).
B. Disconnect the battery voltage and make sure the air passage opens again and does not stick
closed.
C. Look inside the valve air passage and make sure there is no corrosion/rust on the metal shaft.
5. Check the EVAP canister.
A. Check that no liquid will drain from the EVAP canister.
B. Weigh the canister (with the vent control valve). The weight should be less than 4 lbs.
6. If either the EVAP vent control valve or the EVAP canister fail one or more of these checks,
replace both the vent control valve and the canister (see Parts Information).
Installation of the Breather Tube Kit
1. Remove the bedliner (if so equipped)
2. Drill one 25 mm (1 inch) hole in the floor of the vehicle bed at the location shown (see Figure 2).
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 4182
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 3804
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 4787
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Locations
Coolant Temperature Sensor/Switch (For Computer): Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 4319
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 5982
Ignition Coil: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6420
Torque Converter Clutch Solenoid: Connector Views
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6332
20. The screen in Figure 9 is displayed during data transfer.
CAUTION: During data transfer:
^ DO NOT disturb the VI, DDL, or USB connections.
^ DO NOT try to start the engine or turn the ignition OFF.
^ The engine fans may turn on. This is normal.
NOTE:
^ If "Transfer To VI" reaches 100%, and "Transfer To ECU" does not start, or
^ The Error in Figure 9A displays.
a. DO NOT replace the ECM. The ECM is not damaged.
b. Check / make sure the battery voltage is above 12 V and all vehicle electrical loads are turned
OFF (see step 3 and 4).
c. Select Cancel Data Transmission, then click on the "Home" icon (upper left corner of C-III
screen) and re-start from the beginning (step 1).
Part 2
Page 2958
indications with no drop-outs or spikes.
Note: A 2-3 mph (3-5 kph) difference between the CONSULT display and the speedometer is
normal.
4. a) If the speedometer and speed sensor values are 0K, proceed to # 5.
b) If the speedometer and speed sensor data are erratic, this bulletin does not apply. Refer to
service manual for Diagnosis information.
5. Check the existing ECM part number in the vehicle that is listed either on the CONSULT freeze
frame data or checked by CONSULT ECM Part
Number function (see Figure 1).
6. If existing Part Number is one of those listed in Table 1, install the appropriate P/N listed in Parts
Information.
PARTS INFORMATION
CLAIMS INFORMATION
Page 285
Ground Distribution
Page 1687
Comments regarding liquid tanks:
^ For R-134a, the sight glass has been deleted. Refer to the service procedures section of this
bulletin for additional information regarding the refrigerant charge determination. Pressure switches
are not interchangeable between R-12 and R-134a systems.
Page 2454
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 3888
Knock Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8565
Optional Splice
Example Diagrams
Page 2233
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5556
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Specifications
Drive/Propeller Shaft: Specifications
GENERAL SPECIFICATIONS
SERVICE DATA
SNAP RING
Page 8596
Audio (Part 2 Of 2)
Premium Audio System Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 651
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 9565
Tail Lamp: Connector Views
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2648
Ground Distribution
Page 508
Coolant Temperature Sensor/Switch (For Computer): Connector Views
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 4119
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 4370
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Air Bag Module - Air Bag Warning Lamp ON
Air Bag Harness: All Technical Service Bulletins Air Bag Module - Air Bag Warning Lamp ON
Classification: RS99-007A
Reference: NTB99-065A
Date: December 5, 2000
FRONTIER AND XTERRA ASSIST AIR BAG MODULE OPEN CIRCUIT
ATTENTION: This bulletin amends NTB99-065. Information has been added to the Service
Information and Claims Information sections. Please discard all paper copies of NTB99-065.
APPLIED VEHICLES: 1998-2000 Frontier (D22) - Including Crew Cab 2000 Xterra (WD22)
SERVICE INFORMATION If the air bag indicator light on a 1998-2000 Frontier or 2000 Xterra
remains illuminated during normal driving conditions and the CONSULT screen indicates "Assist
A/B Module [Open]," use the following Service Procedure to verify and repair the condition.
NOTE:
This is the only authorized repair for this incident. DO NOT REPLACE the passenger air bag
module.
SERVICE PROCEDURE
1. Verify the air bag light is on.
2. Connect CONSULT to the data link connector.
3. Turn the ignition switch "ON".
4. Select "START" and "AIR BAG".
5. Check the Current and Past SELF-DIAG. Modes for trouble codes:
A. If "Assist A/B Module [Open]" is displayed, perform the procedure provided in Steps 6 through
18, below.
B. If any other diagnostic trouble code is displayed, diagnose and repair as outlined in the
appropriate Service Manual.
6. Record the radio presets.
7. Disconnect both cables of the vehicle battery. Allow the vehicle to sit with the battery
disconnected for at least 3 minutes before performing any further steps in the procedure.
WARNING:
For approximately 3 minutes after the battery cables are removed, it is still possible for the air bag
to deploy. Do not work on any air bag system connectors or wires until at least 3 minutes have
passed.
8. Remove the glove box assembly.
9. Remove the air bag connector clip from the housing on top of the glove box lid.
Page 5850
Description (Part 1 Of 2)
Page 6824
Page 8767
The charts identify 1998 Nissan paint codes, New Cross Link Clear Coat (NCLC) usage, color
names and refinish paint codes for major automotive paint manufacturers. For approved NCLC
clear coat products and procedures, refer to Nissan Bulletin PI95-004, dated March 8, 1995
Page 8718
Diagram Information and Instructions
Ignition Ballast Resistor: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6007
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 62
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 929
Optional Splice
Example Diagrams
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 3666
Data Link Connector: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 1479
Page 8581
Ground Distribution
Page 5202
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 9411
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 3292
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7602
^ Apply the brakes as shown.
^ Start the engine to allow brake boost.
^ Turn the engine OFF,
^ Remove all lock pins-front "turn plates" and rear "slide plates".
^ Make sure the bridge plate will not interfere with movement of the turn plate.
Put the bridge plate in the down position.
^ Perform caster sweep by turning the steering wheel from outside the vehicle.
Page 7681
Page 9524
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7635
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6825
Page 7578
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Steering rack sliding force that is above specification will affect the vehicle's ability to return to the
straight ahead position after a turn.
5. Reassemble the vehicle.
6. Test drive and ensure the steering wheel returns to the straight ahead position after making right
and left turns.
Technical Service Bulletin #
08-097D Date: 110426
Steering/Suspension - Pull Or Drift Diagnostics
Classification: ST08-001D
Reference: NTB08-097D
Date: April 26, 2011
DIAGNOSIS OF VEHICLE PULL (DRIFT) AND STEERING WHEEL OFF CENTER
This bulletin has been amended. Changes have been made to the off-center specification. The
off-center specifications for NV vehicles is 4 mm or less. Please discard previous versions of this
bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
SERVICE INFORMATION
If a customers reports their "vehicle pulls" or the "steering wheel is off-center," use the Diagnostic
Flow Chart below and the other information in this bulletin to diagnose and correct the issue.
Page 4709
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5088
Leak Detection Solenoid: Connector Views
Vacuum Cut Valve Bypass Valve (DTC: P1490)
Vacuum Cut Valve Bypass Valve (Circuit) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 4578
Description (Part 1 Of 2)
Page 7600
5. Make sure the targets are mounted correctly.
^ Mount the top claws first.
^ Claws must be flush against the wheel as shown in Figure 13.
^ Target must be flush against the center support as shown in Figure 14.
^ Make sure the targets are positioned with the arrow UP or level.
IMPORTANT:
Page 7804
Ball Joint: Service and Repair Lower Ball Joint
UPPER AND LOWER BALL JOINT
REPLACEMENT
- Separate knuckle spindle from upper and lower links. Refer to Steering Knuckle.
INSPECTION
- Check joints for play. If ball is worn and play in axial direction is excessive or joint is hard to
swing, replace.as a upper link or lower link. Axial end play "C":
Upper link = 0 mm (0 inch) Lower link
(2WD) = 1.3 mm (0.051 inch) or less (4WD) = 0.2 mm (0.008 inch) or less
- Check dust cover for damage. Replace dust cover and dust cover clamp if necessary.
Page 5939
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 4915
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 856
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Locations
Parking Brake Warning Switch: Locations
A/T Electrical Parts Location
Shift Lock System Electrical Parts Location
Specifications
Power Steering Pressure Switch: Specifications
TIGHTENING SPECIFICATIONS
Pressure Switch ...................................................................................................................................
.............................. 1.7 - 2.3 Nm (15 - 20 inch lbs.)
Page 4708
Ground Distribution
Page 9544
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7175
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do not get grease on the brake pad friction surface.
BRAKE JUDDER
^ Brake Judder is caused by rotor thickness variation and/or rotor run out.
Rotor Thickness Variation: When the inner and outer surface of the rotor are not flat and not
parallel, the brake pads will travel in and out as they follow the low and high spots on the rotor (see
Figure 1).
Rotor Run Out: If the brake rotor is not true to the hub center, the brake pads contact one point on
each side of the rotor with each wheel rotation, even if the brakes are not applied. Over time, this
point contact will cause the rotor to wear more in these areas and cause rotor thickness variation
(see Figure 2).
^ This motion of the brake pads is transferred through the caliper pistons and is felt in the brake
pedal as a pulsation. In severe cases it can also cause a back and forth oscillation in the steering
wheel.
Vehicle Storage:
^ If the vehicle is not operated for periods of time, the area of the brake rotors not covered by the
brake pads will rust.
^ The friction characteristics between the rusted and un-rusted areas of the rotor braking surface
will be different.
^ This difference may cause brake judder at low and/or high mileage, even after the rust wears off.
Lug Nut Overtorque:
^ Another contributor of brake judder is lug nut overtorque. This can occur if the lug nuts are over
tightened, especially with an air impact
Page 1678
Refrigerant: Fluid Type Specifications REFRIGERANT TYPE
REFRIGERANT TYPE
HFC-134 (R134a)
Locations
Alarm Horn: Locations
Component Parts And Harness Connector Location
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 1951
Piston Pin: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Block.
Page 6284
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5347
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 9304
Dome Lamp: Description and Operation
MODELS WITH POWER DOOR LOCKS
Power supply and ground Power is supplied at all times:
^ through 30 A fusible link (Letter [f], located in the fuse and fusible link box)
^ to circuit breaker terminal (1)
^ through circuit breaker terminal (2)
^ to smart entrance control unit terminal (1).
Power is supplied at all times:
^ through 7.5 A fuse [No. [28], located in the fuse block (J/B)]
^ to key switch terminal (1).
Power is supplied at all times:
^ through 7.5 A fuse [No. [26], located in the fuse block (J/B)]
^ to room lamp terminal (+).
When the key is inserted into ignition key cylinder, power is supplied:
^ from key switch terminal (2)
^ to smart entrance control unit terminal (24).
With the ignition switch in the ON or START position, power is supplied:
^ through 7.5 A fuse [No. [5], located in the fuse block (J/B)]
^ to smart entrance control unit terminal (11).
Ground is supplied:
^ through body grounds (M14) and (M68)
^ to smart entrance control unit terminal (10).
When the LH door is opened, ground is supplied:
^ from door switch LH terminal (2)
^ to smart entrance control unit terminal (15).
When the RH door is opened, ground is supplied:
^ from door switch RH terminal (1)
^ to smart entrance control unit terminal (35).
When the LH door is unlocked, the smart entrance control unit receives a ground signal:
^ through body grounds (M14) and (M68)
^ to door unlock sensor terminal (4)
^ from door unlock sensor terminal (2)
^ to smart entrance control unit terminal (12).
When a signal, or combination of signals is received by the smart entrance control unit, ground is
supplied:
^ through smart entrance control unit terminal (9)
^ to room lamp terminal (SW).
With power and ground supplied, the interior room lamp illuminates.
Switch operation When the room lamp switch is ON, ground is supplied:
^ through body grounds (M14) and (M68)
^ to room lamp terminal (-).
With power and ground supplied, the room lamp turns ON and remains ON until the room lamp
switch is turned to OFF or turned to the "DOOR" position and the doors are closed.
Interior room lamp timer operation When the room lamp switch is in the "DOOR" position, the smart
entrance control unit keeps the interior room lamp illuminated for about 30 seconds when:
^ LH door is unlocked
^ key is removed from ignition key cylinder while driver's door is closed
^ driver's door is opened and then closed while ignition switch is not in the ON position.
Page 1725
Fuse: Locations Fuse ID
Power Supply Routing: Schematic (Part 1 Of 2)
Page 6559
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 2502
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 1436
Alignment: Specifications
Camber
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 0°06' (0.10°) Nominal ......................................................................
............................................................................................................................. 0°36' (0.60°)
Maximum .............................................................................................................................................
.................................................... 1°06' (1.10°) Left And Right Difference
............................................................................................................................................................
0°45' (0.75°) or less
Caster
GENERAL SPECIFICATIONS
Allowable Limit:
Minimum ..............................................................................................................................................
................................................... 1°40' (1.67°) Nominal ......................................................................
............................................................................................................................. 2°10' (2.17°)
Page 3455
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 7018
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 3072
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Specifications
Page 7314
JIS = Japan Industrial Standard, used for Japan produced batteries CCA = Cold Cranking Amps,
standard for North American produced batteries
IMPORTANT:
^ JIS batteries have different testing specifications than CCA batteries.
^ If you must use the GR-8 Battery Tester in a mode other than MODEL mode, JIS Mode MUST
ALWAYS BE USED for JIS batteries otherwise an
incorrect result will occur. NEVER test a JIS battery using the CCA test in the GR-8; the test
software in the GR-8 is different for JIS and CCA modes. ANY CCA value you may have for a
JIS-type battery is inaccurate for testing purposes.
^ ALWAYS test with the GR-8 using the MODEL mode (if available).
^ Selecting MODEL and vehicle type will automatically select the proper JIS or CCA value for the
Original Equipment battery.
^ If the applicable vehicle is not listed, update the GR-8 to make sure it has the most recent data
package. (1)
(1) To run the Midtronics Update Wizard for the GR-8 tester in CONSULT III:
^ Make sure the cables from the GR-8 to the multitasker are connected and both units are turned
on.
^ Click on the ASIST icon.
^ Click on INFO. Tool Box.
^ Select Midtronics GR-8.
^ Midtronics Update Wizard file screen displays.
^ Click on Change MUP File.
^ The Select a MUP file window displays with the path: C:\ProgramFiles\Midtronics\MUW.
^ Select 192-725C and click OK.
^ Click on next and follow the prompts on the Midtronics Update Wizard screen.
If the applicable vehicle still is not listed:
1) Determine which type of battery (CCA or JIS) is installed in the vehicle. See below for
descriptions of each battery.
2) Select CCA or JIS in the GR-8 based on the type of battery installed. See below for more
information.
Determine the Battery Type
Batteries with JIS (Japanese Industrial Standard) Number
Page 3268
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 8124
Page 7373
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Specifications
Brake Bleeding: Specifications
Air Bleeder Screw 5 - 7 ft.lb
Page 1212
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 909
Ground Distribution
Page 4098
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
TPS - Adjustment Procedure Revised
Throttle Position Sensor: Technical Service Bulletins TPS - Adjustment Procedure Revised
Classification: EC99-005b
Reference: NTB99-053b
Date: January 22, 2002
NISSAN REVISED TPS ADJUSTMENT PROCEDURE
This bulletin amends NTB99-053a. The Service Information and Service Procedure has been
revised. In addition, TPS Connector tool (Kent-Moore # J45178) information has been included.
Please discard all copies of NTB99-053a.
APPLIED VEHICLE(S): 1995-1998 Maxima (A32) 1996-1998 Pathfinder (R50) 1995-1998 240SX
(S14) 1995-1998 Sentra/200SX (B14) w/GA16 & SR20 engines 1996-1997 Truck (D21) 1998
Frontier (D22) 1995-1997 Altima (U13) 1998 Altima (L30) 1996-1998 Quest (V40)
SERVICE INFORMATION
The adjustment procedure for the throttle position sensor (TPS) has been revised and standardized
for all the Applied Vehicles.
^ The TPS contains a closed throttle position switch (CTPS) and a variable output throttle position
sensor.
^ This procedure uses the closed throttle position switch (CTPS) status (ON or OFF) instead of the
throttle position sensor (variable output voltage) to adjust the TPS.
^ Incorrect adjustment of the CTPS may cause one or more of the following Diagnostic Trouble
Codes (DTCs) to be displayed:
P1447, P0120, P0510, P0731, P0732, P0733, P0734, P1705.
SERVICE PROCEDURE
1. Check fast idle cam (FIC) function, if equipped (refer to appropriate Service Manual). When
finished, make sure the engine is at normal operating temperature and the fast idle cam (if
equipped) has released. Then turn the engine "OFF".
2. Disconnect the harness connector (see Figure 1) from the closed throttle position switch (CTPS)
position of the throttle position sensor (TPS).
3. Connect an ohmmeter across the terminals for the closed throttle position switch (CTPS).
Page 9168
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
On-Vehicle Inspection
Drive/Propeller Shaft: Testing and Inspection On-Vehicle Inspection
PROPELLER SHAFT VIBRATION
If vibration is present at high speed, inspect propeller shaft runout first. 1. Raise rear end of vehicle
until wheels are clear of the ground.
2. Measure propeller shaft runout at several points along propeller shaft by rotating final drive
companion flange using hands.
3. If runout exceeds specifications, disconnect propeller shaft at final drive companion flange.
Rotate companion flange 180 degrees, then reconnect
propeller shaft.
Runout limit: 0.6 mm (0.024 inch)
4. Check runout again. If runout still exceeds the limit, replace propeller shaft assembly. 5. Perform
road test.
APPEARANCE CHECKING
- Inspect propeller shaft tube surface for dents or cracks and replace as necessary.
- Check center bearing for noise or damage and replace as necessary.
Page 3104
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 7153
Brake Rotor/Disc: Technical Service Bulletins Brakes - On-Car Rotor Refinishing
Classification: BR04-007
Reference: NTB04-094
Date: August 20, 2004
NISSAN: ON-CAR BRAKE ROTOR RESURFACING
APPLIED VEHICLES: All Nissan
If YOU CONFIRM:
A vehicle needs to have the brake rotors resurfaced (front or rear),
ACTION:
Use the ProCut(TM) PFM Series on-car brake lathe to perform brake rotor resurfacing and follow
the tips listed in this bulletin.
^ The ProCut(TM) PFM Series brake lathe has been chosen as the approved tool for rotor
resurfacing.
^ The ProCut(TM) PFM Series brake lathe can be ordered from TECH-MATE at 1-800-662-2001.
^ ProCut(TM) technical support or service can be obtained by calling 1-800-543-6618.
NOTE:
Brake rotors may need to be resurfaced during routine brake repair or for brake "Judder" incidents.
^ Brake judder: A brake pedal pulsation and/or steering wheel shimmy when braking that occurs
when there is too much thickness variation of the brake rotors (see NTB00-033).
TIPS FOR USING THE PROCUT(TM) PFM SERIES ON-CAR BRAKE LATHE
^ Read and follow all instructions contained in the Technical Manual provided with your ProCut(TM)
equipment.
^ The ProCut(TM) brake lathe also comes with an instructional video that can be used as a training
aid.
^ Additional training is available from your local ProCut(TM) representative by calling
1-800-543-6618.
A. Make sure the cutting tips are sharp, in good condition and installed "right-side" up.
^ Make sure to use ProCut(TM) brand tips.
^ The cutting tip "UP" side has a groove or letters.
NOTE:
A tip mounted upside-down will produce a surface finish that looks like an old LP record.
^ Each cutting tip has three cutting corners. Rotate or replace the tip as needed.
NOTE:
You should get at least 7 cuts per corner. However, tip life is affected by variables such as rust or
ridges. In order to determine when to rotate tips, monitor the rotor finish. If the rotor finish begins to
look inconsistent or feels rough to the touch, tips should be rotated or replaced. Tips that are
chipped or cracked should never be used.
Page 4604
Vehicle Speed Sensor: Connector Views
Vehicle Speed Sensor (VSS) (DTC: P0500)
Vehicle Speed Sensor (VSS) Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 2867
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 5738
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 9130
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 4534
HORN ..................................................................................................................................................
.......................................................................... Horn IATS .................................................................
.................................................................................................................... Intake Air Temperature
Sensor IGN/SG ....................................................................................................................................
....................................................................... Ignition Signal ILL ........................................................
..............................................................................................................................................................
Illumination INJECT .............................................................................................................................
......................................................................................... Injector INT/L .............................................
..............................................................................................................................................................
......... Spot Lamp KS ...........................................................................................................................
......................................................................................... Knock Sensor LKUP ..................................
.................................................................................................................................. Torque
Converter Clutch Solenoid Valve MAFS ..............................................................................................
................................................................................................... Mass Air Flow Sensor MAIN ............
..........................................................................................................................................................
Main Power Supply and Ground Circuit METER
.................................................................................................................................................
Speedometer, Tachometer, Temp. and Fuel Gauges MIL/DL ............................................................
.................................................................................................................... MIL and Data Link
Connectors MIRROR ...........................................................................................................................
................................................................................. Door Mirror MULTI .............................................
....................................................................................................................................... Multi-remote
Control System PGC/V
.............................................................................................................................................. EVAP
canister Purge Volume Control Solenoid Valve PNP/SW ...................................................................
........................................................................................................................ Neutral Position Switch
POWER ...............................................................................................................................................
............................................... Power Supply Routing PRE/SE ...........................................................
......................................................................................................... EVAP Control System Pressure
Sensor PST/SW ..................................................................................................................................
....................................... Power Steering Oil Pressure Switch ROOM/L ............................................
...................................................................................................................................................
Interior Room Lamp RRO2 ..................................................................................................................
...................................................................... Rear Heated Oxygen Sensor RRO2/H .........................
................................................................................................................................................ Rear
Heated Oxygen Sensor Heater S/SIG .................................................................................................
.................................................................................................................. Start Signal SHIFT ............
..............................................................................................................................................................
...................... A/T Shift Lock System SROOF ....................................................................................
.................................................................................................................................. Sunroof SRS .....
..............................................................................................................................................................
.................... Supplemental Restraint System START ........................................................................
.................................................................................................................................. Starting System
STOP/L ................................................................................................................................................
................................................................. Stop Lamp SW/V ...............................................................
............................................................................................................ MAP/BARO Switch Solenoid
Valve TAIL/L ........................................................................................................................................
...................................... Parking, License, and Tail Lamps TFTS ......................................................
............................................................................................................................... Tank Fuel
Temperature Sensor THEFT ...............................................................................................................
................................................................................ Theft Warning System TP/SW ............................
..............................................................................................................................................................
.... Throttle Position Switch TPS ..........................................................................................................
........................................................................................ Throttle Position Sensor TURN ..................
.................................................................................................................................................. Turn
Signal and Hazard Warning Lamps VENT/V .......................................................................................
................................................................................. EVAP Canister Vent Control Valve VSS ...........
..............................................................................................................................................................
............................ Vehicle Speed Sensor WARN ................................................................................
.......................................................................................................................... Warning Lamps
WINDOW .............................................................................................................................................
........................................................ Power Window WIPER ...............................................................
...................................................................................................................................... Wiper and
Washer
Diagram Instructions
FINDING ELECTRICAL DIAGRAMS
Electrical diagrams can be found by selecting the specific component or by selecting diagrams at
vehicle level.
REFERENCED DIAGRAMS
In many instances electrical diagrams will refer you to another electrical diagram to complete the
circuit. These referenced electrical diagrams can be found at vehicle level under "Diagrams".
DIAGRAM IDENTIFICATION
The referenced electrical diagrams are displayed by system:
AT-DIAGRAMS...............Automatic Transmission BR-DIAGRAMS...............Brake System
EC-DIAGRAMS...............Engine Control System EL-DIAGRAMS...............Electrical System
HA-DIAGRAMS...............Heater And Air Conditioner RS-DIAGRAMS...............Restraint System
Introduction
In general, testing electrical circuits is an easy task if approached logically. Before beginning, it is
important to have all available information on the system to be tested. Also, get a thorough
understanding of system operation. Then you will be able to use the appropriate equipment and
follow the
Page 2771
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 7788
^ For installation, refer to Air Bags and Seat Belts.
Page 4930
Canister Purge Volume Control Valve: Electrical Diagrams
EC-PGC/V-01 Evaporative Emission Canister Purge Volume Control Solenoid Valve (DTC: P0443)
Circuit Diagram
Evaporative Emission Canister Purge Volume Control Solenoid Valve (DTC: P0443)
Evaporative Emission (EVAP) Canister Purge Volume Control Solenoid Valve (Circuit) Circuit
Connectors
Page 5042
Ground Distribution
Page 1142
Camshaft Position Sensor: Connector Views
Camshaft Position Sensor (CMPS) (DTC: P0340)
Camshaft Position Sensor (CMPS) Circuit Connectors
Page 8180
^ Do not introduce compressed air to any refrigerant container or refrigerant component, because
contamination will occur.
^ R-134a in the presence of oxygen and under pressure may form a combustible mixture.
Therefore, never introduce compressed air into any R-134a container, cylinder, A/C component,
recover/recycle equipment, or other service equipment. This includes "empty" containers.
Refrigerant Terminology
Please use the correct name or names when specifying refrigerants. The guidelines are listed
below:
^ Freon --> is a registered trademark of DuPont, and should only be used if referring to DuPont
R-12.
^ DuPont's trade name for R-134a (automotive use) is Suva-->Trans A/C.
^ When referring to refrigerants, the terms Freon-->and Suva--> should not be used as a general
reference. The proper terms are R-12 and R-134a
Comments regarding refrigerants:
^ R-12 and R-134a are not compatible with each other and should never be mixed, even in the
smallest amounts.
^ R-134a for automotive use has a special tank fitting size (1/2" - 16 ACME) which is compatible
with automotive service equipment
^ When purchasing R-134a, be certain that the fitting size on the tank is 1/2" - 16 ACME. This
thread size is easy to recognize by the square thread, as shown.
^ Although R-134a has no ozone depletion potential (ODP), it does have a slight global warming
potential (GWP). Due to this slight GWP, as well as its high cost, venting of R-134a into the air is
not recommended.
^ Recovery/recycling of R-134a will be required by U.S. Federal Law, Clean Air Act Amendments of
1990.
Page 6096
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 6292
Ground Distribution
Page 8445
3. Insert the "D" ring cleaning wire under the seat belt; between the belt and the "D" ring (see
Figure 3).
^ The "D" ring cleaning wire is provided in the kit that's listed in the Parts Information.
4. Pull the wire back and forth across the surface of the "D" ring.
^ Make sure all residue is removed from the "D" ring in all areas where it contacts the seat belt
NOTE:
^ It is very important to remove all residue build-up from the "D" ring.
^ If you don't remove all residue build-up, the fluorine resin tape won't stick properly.
Page 4381
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 1257
Description (Part 1 Of 2)
Page 9203
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 573
Intake Air Temperature Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 8295
Air Bag Deactivation Switch: Description and Operation
Passenger Air Bag Deactivation Switch
Passenger Air Bag Deactivation Switch
The vehicle is equipped with a passenger air bag deactivation switch which can be operated by the
customer. When the switch is turned to the ON position, the passenger air bag is enabled and
could inflate in a frontal collision. When the switch is turned to the OFF position, the passenger air
bag is disabled and will not inflate in a frontal collision.
After turning the ignition switch ON, a passenger air bag deactivation switch indicator illuminates on
the instrument panel for bulb check. The indicator will stay lit if the passenger air bag deactivation
switch is in the OFF position. If the passenger air bag deactivation switch is in the ON position, the
indicator will turn off after about 7 seconds.
After SRS maintenance or repair, make sure the passenger air bag deactivation switch is in the
same position (ON or OFF) as when the vehicle arrived for service.
Activation / Deactivation Passenger Air Bag
If the passenger air bag deactivation switch indicator operation does not correspond to ON/OFF
operation of the passenger air bag deactivation switch, perform self-diagnoses for SRS and repair
according to the self-diagnostic failure. Refer to "SRS Operation Check".
If no self-diagnostic failure is detected, replace the passenger air bag deactivation switch including
the key cylinder.
Page 5923
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6120
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 2230
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
M/T - Clutch Operating Cylinder Service Information
Clutch Slave Cylinder: Technical Service Bulletins M/T - Clutch Operating Cylinder Service
Information
Classification: MT95-003
Reference: NTB95-114
Date: December 6, 1995
CLUTCH OPERATING CYLINDER - DUAL CUP PISTON SEAL ARRANGEMENT SERVICE
INFORMATION
Figure 1
The piston cup for the clutch operating cylinder has been changed from a single cup to a dual cup.
The parts are interchangeable with a piston kit (piston assembly, piston spring and dust cover), see
Figure 1.
Please update the CL section of your service manuals to show the dual cup piston seal
arrangement.
Please refer to your microfiche parts catalog for the appropriate vehicle and part number.
Page 4433
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 6956
Ground Distribution
Page 6568
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Capacity Specifications
Fluid - M/T: Capacity Specifications
Specified amount .................................................................................................................................
.............................................. 10.375 pts. (4.9 Liters)
Page 4947
Multiple Switch
The continuity of multiple switch is described in two ways as shown below.
^ The switch chart is used in schematic diagrams.
^ The switch diagram is used in wiring diagrams.
How to Perform Efficient Diagnosis For an Electrical Incident
Work Flow Chart
Page 1124
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 7810
Page 3743
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 1996
Page 7991
10. Measure starting force "A" at wheel hub bolt.
11. Install lock washer by tightening the lock nut within 15 to 30 degrees.
12. Turn wheel hub several times in both directions to seat wheel bearing correctly.
13. Measure starting force "B" at wheel hub bolt. Refer to step 10. 14. Wheel bearing preload "C"
can be calculated as shown below.
C = B - A Wheel bearing preload "C": 7.06 - 20.99 N (1.59 - 4.72 lbs.)
15. Repeat steps 3 through 14 until correct axial end play and wheel bearing preload are obtained.
16. Tighten screws to 1.2 - 1.8 Nm (10.4 - 15.6 inch lbs.).
17. Install free running hub.
Page 1843
Wheel Hub (Locking): Specifications
Diagram Information and Instructions
Coolant Temperature Sensor/Switch (For Computer): Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 6710
4. Hold the hose and can as high as possible. Spray Transmission Cooler Cleaner in a continuous
stream into the air cooler Outlet hose until fluid flows out of the air cooler Inlet hose for 5 seconds
(Point A, Figure 8).
5. Insert the tip of an air gun into the end of the air cooler Outlet hose (see Point B, Figure 9).
6. Wrap a shop rag around the air gun tip and end of the air cooler Outlet hose.
7. Blow compressed air regulated to 5-9 kg/sq.cm (70 - 130 PSI) through the air cooler Outlet hose
to force any remaining oil or cleaner through the air cooler and out of the air cooler Inlet hose (see
Point A, Figure 9).
8. Proceed with Diagnosis Procedure (All Vehicles), below.
Diagnosis Procedure (All Vehicles)
You will be taking a sample of the debris to determine if the radiator/oil cooler must be replaced.
CAUTION:
You must refer to Charts A and B to determine the location of the Inlet and Outlet hoses for the oil
cooler in the radiator of the vehicle you are working on.
If you do not identify the Inlet and Outlet hoses correctly, debris may be left inside the "in radiator"
cooler and transmission damage may occur.
NOTE:
Failure to clean the exterior of the Cooler Inlet hose properly may lead to inaccurate debris
identification.
1. Place an oil drain pan under the automatic transmission "in radiator" cooler Inlet and Outlet
hoses.
2. Clean the exterior and tip of the cooler Inlet hose.
3. Insert the "extension adapter hose" from a can of Transmission Cooler Cleaner (Nissan P/N
999MP-AM006) into the Outlet hose of the oil cooler in the radiator (see Figure 4).
CAUTION:
^ Wear safety glasses and rubber gloves when spraying the Transmission Cooler Cleaner.
^ Spray Cooler Cleaner only with adequate ventilation.
^ Avoid contact with eyes and skin.
^ Do not breath vapors or mist from spray.
4. Hold the hose and can as high as possible and spray Transmission Cooler Cleaner in a
continuous stream into the cooler Outlet hose until fluid flows out of the cooler Inlet hose for 5
seconds.
NOTE:
For Quest vehicles (V40/V41 Models);
Page 7012
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 141
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 4062
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 1741
Fusible Link: Diagrams
Fusible Link
A melted fusible link can be detected either by visual inspection or by feeling with finger tip. If its
condition is questionable, use circuit tester or test lamp.
CAUTION:
^ If fusible link should melt, it is possible that critical circuit (power supply or large current carrying
circuit) is shorted. In such a case, carefully check and eliminate cause of problem.
^ Never wrap outside of fusible link with vinyl tape. Important: Never let fusible link touch any other
wiring harness, vinyl or rubber parts.
Adjustments
Neutral Safety Switch: Adjustments
1. Remove control linkage and manual lever from manual shaft. 2. Set manual shaft in "N" position.
3. Loosen inhibitor switch fixing bolts. 4. Insert pin into adjustment holes in both inhibitor switch and
manual as near vertical as possible. 5. Tighten inhibitor switch fixing bolts. 6. Remove pin. 7.
Reinstall any part removed. 8. Adjust control linkage. Refer to Transmission and Drivetrain. 9.
Check continuity of inhibitor switch.
Page 3205
11. Using CONSULT-II select ENGINE, DATA MONITOR (Manual trigger), Selections From Menu,
CLSD THL/P SW, and Enter.
12. Stop engine (turn ignition switch "OFF").
13. Turn ignition switch "ON" and wait at least five seconds.
14. Turn ignition switch "OFF" and wait at least ten seconds.
15. Repeat steps 13 and 14 for 1 to 16 times until CLSD THL/P SW in CONSULT-II changes to
"ON".
Page 1211
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 586
Intake Air Temperature Sensor: Testing and Inspection
COMPONENT INSPECTION
Intake air temperature sensor Check resistance as shown in the figure. If NG, replace intake air
temperature sensor.
Page 136
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 7224
Brake Fluid: Service and Repair
CAUTION:
^ Refill with new brake fluid DOT 3.
^ Always keep fluid level higher than minimum line on reservoir tank.
^ Never reuse drained brake fluid.
^ Be careful not to splash brake fluid on painted areas; it may cause paint damage. If brake fluid is
splashed on painted areas, wash it away with water immediately.
CHANGING BRAKE FLUID
1. Clean inside of reservoir tank, and refill with new brake fluid.
2. Connect a vinyl tube to each air bleeder valve. 3. Drain brake fluid from each air bleeder valve
by depressing brake pedal. 4. Refill until brake fluid comes out of each air bleeder valve. Use same
procedure as in bleeding hydraulic system to refill brake fluid. Refer to
Bleeding Brake System.
Page 6279
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 6287
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6810
Axle Nut: Specifications Axle / Bearing Lock Nut
TIGHTENING SPECIFICATIONS
Mounting Screws .................................................................................................................................
.................................. 49 - 69 Nm (36 - 51 ft. lbs.)
Page 7300
Wheel Speed Sensor: Service and Repair Rear
REPLACEMENT
Refer to the illustration when servicing
Page 387
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 5736
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 2596
Optional Splice
Example Diagrams
Page 501
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 850
Vehicle Speed Sensor: Locations
Component Parts And Harness Connector Location
Page 6965
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Locations
Fuse Block: Locations
Component Parts And Harness Connector Location
Instruments - Fuel Gauge Inaccurate
Fuel Gauge Sender: All Technical Service Bulletins Instruments - Fuel Gauge Inaccurate
Classification: EL99-011
Reference: NTB99-064
Date: September 21, 1999
1998-99 FRONTIER FUEL GAUGE INACCURATE
APPLIED VEHICLE: 1998-99 Frontier (D22)
APPLIED DATE: See note under Service Information
APPLIED ENGINE #: KA24DE only
SERVICE INFORMATION
If the fuel gauge on a 1998-99 Frontier exhibits the symptoms listed below (indicated by bullet
points), the cause may be wire harness to body ground contact points, the fuel sender (in the fuel
tank) or the unified control meter (contained in the speedometer assembly).
NOTE:
The wire harness to body ground and fuel sender conditions only apply to vehicles built before
September 1, 1999. The unified control meter condition only applies to vehicles built before
January 1, 1999.
^ Fuel gauge indicates less than full after the fuel tank is filled.
^ Fuel gauge moves down rapidly to 7/8 or 3/4 after the fuel tank is filled.
Use the following service procedure to repair the vehicle if these incidents occur.
SERVICE PROCEDURE
1. Confirm the incidents occur as described above.
A. If the incidents occur, proceed with step 2.
B. If the incidents do not occur, this bulletin does not apply.
2. Remove the machine bolt from body ground M68 (located behind the passenger side kick panel)
and clean the contact surfaces of the ground wire eyelet and the body panel as necessary to
ensure metal-to-metal contact (see Figure 1). Reinstall the bolt carefully to avoid damaging the
threads.
A/C - Refrigerant Leaks From Connections
A/C Coupler O-ring: Customer Interest A/C - Refrigerant Leaks From Connections
Classification: HA09-003
Reference: NTB09-099
Date: September 25, 2009
A/C SYSTEM O-RING SEAL LEAKS
APPLIED VEHICLES: All Nissan vehicles with A/C system
IF YOU CONFIRM
A refrigerant leak at a refrigerant pipe/hose joint location,
NOTE:
Follow the leak detection information in the Service Manual to determine the source of refrigerant
leaks.
ACTIONS
NOTE:
The O-ring seal is the most common cause of a refrigerant leak at an A/C joint.
1. Inspect the metal surfaces of the pipe/hose joint for damage or contamination.
NOTE:
Do not replace a refrigerant pipe, hose, or other A/C component if an o-ring seal will solve the leak
incident, if it should occur.
2. If no damage is found to the joint metal surfaces, replace the O-ring seal.
CAUTION:
^ When replacing O-ring seals, use lint-free gloves,
^ Make sure no foreign material is introduced into the system when the joint is open.
^ Apply A/C oil to the O-ring before installation.
^ After recharging the system, recheck for leaks.
PARTS INFORMATION
Reference an electronic parts catalog (FAST or equivalent) for any needed parts.
CLAIMS INFORMATION
Reference the current Nissan Warranty Flat Rate Manual and use the correct coding for repairs
performed.
Page 4431
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 5091
Leak Detection Solenoid: Description and Operation
COMPONENT DESCRIPTION
The vacuum cut valve and vacuum cut valve bypass valve are installed in parallel on the EVAP
purge line between the fuel tank and the EVAP canister. The vacuum cut valve prevents the intake
manifold vacuum from being applied to the fuel tank. The vacuum cut valve bypass valve is a
solenoid type valve and generally remains closed. It opens only for on board diagnosis. The
vacuum cut valve bypass valve responds to signals from the ECM. When the ECM sends an ON
(ground) signal, the valve is opened. The vacuum cut valve is then bypassed to apply intake
manifold vacuum to the fuel tank.
Page 9396
Low Beam
If the vehicle front body has been repaired and/or the headlamp assembly has been replaced,
check aiming. Use the aiming chart shown in the figure.
^ Upper edge and left edge of high intensity zone should be within the range shown at left. Adjust
headlamps accordingly. ^ Dotted lines in illustration show center of headlamp.
"H": Horizontal center line of headlamps "WL": Distance between each Headlamp center
Page 5114
Ground Distribution
Wire Color Code Identification
B: Black
BR: Brown
CH: Dark Brown
DG: Dark Green
G: Green
GY: Grey
L: Blue
LG: Light Green
OR:
Orange
P: Pink
PU: Purple
R: Red
SB: Sky Blue
W: White
Y: Yellow
When the wire color is striped, the base color is given first, followed by the stripe color as shown
below: Example: L/W = Blue with White stripe.
Page 2247
Coolant Temperature Sensor/Switch (For Computer): Electrical Diagrams
EC-ECTS-01 Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Circuit Diagrams
Engine Coolant Temperature Sensor (ECTS) (DTC: P0115)
Engine Coolant Temperature Sensor (ECTS) (Circuit) Circuit Connectors
Page 39
Passenger Compartment (Part 2 Of 2)
Passenger Compartment
Page 814
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 7013
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 3314
Crankshaft Position Sensor: Testing and Inspection
COMPONENT INSPECTION Crankshaft position sensor (OBD)
1. Disconnect crankshaft position sensor (OBD) harness connector. 2. Loosen the fixing bolt of the
sensor. 3. Remove the sensor. 4. Visually check the sensor for chipping. 5. Check resistance as
shown in the figure.
Resistance: Approximately 166.5 - 203.5 ohms [at 20°C (68°F)]
If NG, replace crankshaft position sensor (OBD).
Page 7975
Print this page and keep it by your tire mounting equipment
Testing and Inspection
Oil Pressure Warning Lamp/Indicator: Testing and Inspection
For further information regarding this component and the system that it is a part of, please refer to
Sensors and Switches - Engine.
Testing and Inspection
Refrigerant Pressure Sensor / Switch: Testing and Inspection
Page 7973
^ Make sure the tire is evenly positioned on the lower safety humps.
5. WARNING: Do not exceed the tire manufactures recommended bead seating inflation pressure.
Generally this is 40psi.
If the bead does not seat with the appropriate pressure:
a. Break down the tire/rim assembly.
b. Re-apply lubricant as shown in Figures 1 and 2.
c. Remount the tire.
6. After inflating the tires, inspect the bead area.
^ Make sure bead is seated uniformly (the same) around the entire circumference of the wheel.
NOTE:
Many tires have Aligning Rings that will help confirm the bead is uniformly seated.
If uniform; bead is seated correctly. If not uniform
1. Break down the tire/rim assembly.
2. Re-apply lubricant as shown in Figures 1 and 2.
3. Remount the tire.
Page 108
^ C-III PCMCIA Card Adapter is installed.
^ C-III Security Card is installed.
^ A screen print for Warranty documentation can be done from C-III during this process while still
cable-connected to the vehicle.
1. Use the USB cable to connect the Vehicle Interface (VI) to the C-III computer and then connect
the VI to the vehicle.
CAUTION
2. Connect the AC Adapter to the C-III computer.
CAUTION
3. Connect a battery charger to the vehicle battery:
For Conventional Vehicles
^ Set the battery charger at a low charge rate.
NOTE:
The GR-8 (Battery and Electrical Diagnostic Station) set to "Power Supply" mode is recommended.
CAUTION
For Hybrid Vehicles
^ Use the GR-8 Battery and Electrical Diagnostic Station.
^ If needed, refer to Hybrid Service TSBs for connecting the GR-8 to the Hybrid 12V battery.
Page 5744
The flowchart indicates work procedures required to diagnose problems effectively. Observe the
following instructions before diagnosing.
1. Use the flowchart after locating probable causes of a problem following the "Preliminary Check",
the "Symptom Chart" or the "Work Flow". 2. After repairs, re-check that the problem has been
completely eliminated. 3. Refer to Component Parts Location and Harness Connector Location for
the Systems described in each section for identification/location of
components and harness connectors.
4. Refer to the Circuit Diagram for Quick Pinpoint Check.
If you must check circuit continuity between harness connectors in more detail, such as when a
sub-harness is used.
5. When checking circuit continuity, ignition switch should be OFF. 6. Before checking voltage at
connectors, check battery voltage. 7. After accomplishing the Diagnostic Procedures and Electrical
Components Inspection, make sure that all harness connectors are reconnected
properly.
Key to Symbol Signifying Measurements or Procedures
Key To Symbols Signifying Measurements Or Procedures
Page 9037
NOTE:
Do not over-tighten the machine bolt when reinstalling it.
3. Remove the self-tapping screw from body ground M14 (located behind the driver's side kick
panel) and clean the contact surfaces of the ground wire eyelet and body panel as necessary to
ensure metal-to-metal contact (see Figure 2). Reinstall the screw carefully to avoid damaging the
threads.
NOTE:
If the body threads are stripped, install a slightly larger self-tapping screw to secure the body
ground wire eyelet.
4. Replace the fuel sender located in the fuel tank.
NOTE:
The fuel sending unit can be accessed by either removing the fuel tank from the bottom of the
vehicle or removing the truck bed from the top of the vehicle. Before removing the bed, make sure
there is sufficient space around the vehicle to safely remove and store the bed. If the fuel tank is
removed, refer to the FE section in the appropriate service manual for instruction on removing the
fuel tank/fuel sender.
NOTE:
The following step (step # 5) only applies to vehicles built before January 1, 1999.
5. Replace the speedometer assembly*. Refer to the BT section in the appropriate service manual.
* The speedometer assembly includes the unified control meter, which controls the fuel gauge,
speedometer, engine temperature gauge, odometer and tachometer (it equipped).
NOTE:
Conform to local laws regarding speedometer/odometer replacement. A new speedometer/unified
control meter with the odometer set to the correct mileage may be ordered as described in Claims
Bulletin WB/98-017.
PARTS INFORMATION
NOTE:
The speedometer assemblies listed above must be ordered as described in Claims Bulletin
WB/98-017.
Page 891
EGR Temperature Sensor: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Diagram Information and Instructions
Torque Converter Clutch Solenoid: Diagram Information and Instructions
Sample Diagram Information
GI-EXAMPLE-02 Sample/Wiring Diagram
Page 1279
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2682
Relationship Between Open/Short (high Resistance) Circuit And The ECM Pin Control: Case 2
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 2 does not
detect approx. 0 V. Control Unit does not detect the switch is ON even if the switch does turn on.
Therefore, the Control Unit does not control ground to light up the lamp.
Introduction
Sometimes the symptom is not present when the vehicle is brought in for service. if possible,
re-create the conditions present at the time of the incident. Doing so may help avoid a No Trouble
Found Diagnosis. The following section illustrates ways to simulate the conditions/environment
under which the owner experiences an electrical incident.
The sections is broken into the six following topics;
^ Vehicle vibration
^ Heat sensitive
^ Freezing
^ Water intrusion
^ Electrical load
^ Cold or hot start up
Get a thorough description of the incident from the customer. It is important for simulating the
conditions of the problem.
Vehicle Vibration
The problem may occur or become worse while driving on a rough road or when engine is vibrating
(idle with A/C on). In such a case, you will want to check for a vibration related condition.
Connectors & harness Determine which connectors and wiring harness would affect the electrical
system you are inspecting. Gently shake each connector and harness while monitoring the system
for the incident you are trying to duplicate. This test may indicate a loose or poor electrical
connection.
HINT: Connectors can be exposed to moisture. It is possible to get a thin film of corrosion on the
connector terminals. A visual inspection may not reveal this without disconnecting the connector. If
the problem occurs intermittently, perhaps the problem is caused by corrosion. It is a good idea to
disconnect, inspect and clean the terminals on related connectors in the system.
Page 4268
Crankshaft Position Sensor: Connector Views
Crankshaft Position Sensor (CKPS) (OBD) (DTC: P0335)
Crankshaft Position Sensor (OBD) Circuit Connectors
Page 579
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Locations
Throttle Full Close Switch: Locations
ECCS Component Parts Location
ECCS Component Parts Location
Page 8600
Radio/Stereo: Service and Repair
Audio Antenna
Fender antenna replacement
^ Removal 1. Remove one screw securing fender antenna assembly. 2. Disconnect fender antenna
cable connector. 3. Remove the fender antenna assembly.
Service and Repair
Fuel Pressure Release: Service and Repair
CAUTION: Before disconnecting fuel line, release fuel pressure from fuel line to eliminate danger
With Consult
1. Start engine. 2. Perform "FUEL PRESSURE RELEASE" in "WORK SUPPORT" mode with
CONSULT. 3. After engine stalls, crank it two or three times to make sure that fuel pressure is
released. 4. Turn ignition switch "OFF".
OR
Without Consult
1. Remove fuse for fuel pump. 2. Start engine. 3. After engine stalls, crank it two or three times to
release all fuel pressure. 4. Turn ignition switch "OFF" and reconnect fuel pump fuse.
Page 8815
Finish Kare products are marketed by mobile distributors which will deliver the product directly to
your dealership. If a Finish Kare distributor is not located in your area, Finish Kare can be
contacted at the number above for direct shipment from their national office.
Page 8974
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 5574
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Suspension - Strut Leak Guideline
Suspension Strut / Shock Absorber: Customer Interest Suspension - Strut Leak Guideline
Classification: FA99-001
Reference: NTB99-001
NISSAN VEHICLE STRUT REPLACEMENT GUIDELINES
Date: February 15, 1999
APPLIED VEHICLES: All 1990-2000 Nissan vehicles
SERVICE INFORMATION This bulletin provides information to correctly identify leaking struts that
qualify for replacement under warranty. Use this bulletin to accurately diagnose a leaking strut,
which should be replaced. This bulletin also provides information to correctly identify a strut which
has slight oil seepage, a condition which is considered normal, does not affect the strut's operation
or performance and does not require replacement.
SERVICE PROCEDURE Strut leaks are caused by deterioration of the oil seal due to wear,
internal contamination, or external contamination (i.e. outside dust or anti corrosion spray entry).
These factors can affect the strut seal mechanism and result in a gross oil leak. In such an
instance, the strut needs to be replaced. NOTE:
If strut leakage is diagnosed in one strut, do not automatically replace struts on both sides. Replace
the leaking strut only.
Strut seepage occurs as a thin layer of oil sticks to the strut's shaft and passes through the seal. A
very small amount of oil can escape and stain the upper exterior of the strut. The amount of oil
seepage present on the strut can be affected by ambient temperature variations and driving
conditions (extreme hot or cold weather or rough road conditions can increase the amount of
seepage). Seepage is considered a normal condition since it does not affect the operation and
performance of the strut. Use the following information to identify strut leakage versus strut
seepage: The following criteria can also be applied to shock absorbers.
1. Strut Leakage - Strut Needs To Be Replaced:
Page 3439
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 5568
Ground Distribution
Page 7320
5) Re-install the cell plugs.
6) Check that the terminal connections are tight. Clean and tighten the connections as needed.
NOTES:
^ If it is difficult to see the electrolyte level on the front of the battery case, follow steps 1 through 5
under "Batteries With Black Cases".
^ For optimum performance and battery life, fill all cells to the "Upper Level" mark.
^ If you remove the battery cables to clean the terminals, record the radio pre-sets before
removing. Re-set the radio pre-sets and the clock after cables are reinstalled.
CAUTIONS:
^ Always use distilled water when adjusting battery fluid levels. DO NOT use tap water or
electrolyte (acid).
^ DO NOT overfill the battery cells.
Page 8182
^ The graph on the following page shows that PAG oil left open to air (e.g. in an unsealed
container) will absorb 2% moisture (by weight) in 120 hours (5 days).
^ PAG containers, and any A/C component which contains PAG oil (such as the compressor)
should remain tightly capped and sealed until ready for use.
^ If you believe that a container of PAG oil may not have been adequately re-sealed after opening,
dispose of the oil properly and use oil from a new sealed container.
^ When installing or servicing an A/C system, the refrigerant tube and hose connections should be
sealed (all connections made and tightened to specification) without delay.
^ The above precautions will keep the absorption of moisture into the system to a minimum. Using
moisture saturated PAG oil in R-134a systems may lead to the formation of acids and related
system damage or failure.
^ Do not allow refrigerant oil (Nissan A/C System Oil Type S) to contact styrofoam, as the lubricant
will damage this material.
Page 7230
1. Tighten all flare nuts and connecting bolts to:
- Flare nuts: 15 - 18 Nm (11 - 13 ft. lbs.)
- Connecting bolts: 17 - 19 Nm (12 - 14 ft. lbs.)
2. Refill until new brake fluid comes out of each air bleeder valve. 3. Bleed air. Refer to Bleeding
Brake System.
Page 1001
Optional Splice
Example Diagrams
Page 4783
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 6479
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 7176
wrench.
Brake Judder Repair
^ Brake judder incidents must be corrected by turning the rotors with a ProCut(TM) PFM series
On-Car Brake Lathe.
^ Refer to NTB04-094 for information on using this lathe.
^ If the rotors are replaced, make sure you index them to the axle hub to ensure minimum runout
(see Rotor Indexing shown in this bulletin).
PEDAL FEEL
^ Some customers may say that the brake pedal feels too high or low when applying the brakes.
^ This may indicate the brake system needs service or it may be the result of the customer
comparing the feel of the brakes in a new car with the feel of the brakes in a previous car.
^ Road test the vehicle with the customer. Compare brake operation to a "know good vehicle and
determine if brake service is necessary. If so, refer to the following service items:
a. Inspect the brake calipers and make sure they are correctly installed and sliding freely.
b. Inspect the front and rear brakes and make sure the brake pads and/or shoes are properly
installed.
c. Bleed all air from the brake system.
d. Make sure the brake pedal stroke and free play are adjusted correctly. Refer to the BR section of
the appropriate service manual.
NOTE:
Use Essential Tool J-46532 (Brake Pedal Height Tool) for brake pedal height check and
adjustment. This tool is available from TECH-MATE.
BRAKE SERVICE
To ensure a high quality brake service be sure to:
1. Finish rotors properly.
^ This is one of the most important aspects of preventing and eliminating brake noise.
^ Use the ProCut(TM) PFM series on-car brake lathe. It has been chosen as the approved tool for
rotor resurfacing (refer to NTB04-094 for additional information).
2. Correctly install pads and shims.
IMPORTANT:
Correct installation and lubrication of brake pads and all caliper parts and hardware is essential for
proper brake operation and will help dampen noise-causing movement and vibrations.
^ Refer to ASIST (Service Bulletins and ESM) for correct installation and lubrication of brake pads,
caliper parts, and hardware.
CAUTION:
Do Not get grease on the brake pad friction surface.
3. Perform the following post-installation checks.
^ Confirm that brake pads fit snugly in the calipers. Replace worn components as necessary.
^ Test drive after repairs and burnish the new brakes. This will influence brake performance,
including noise.
a. Drive the vehicle on a straight smooth road at about 30 mph (50 kph).
b. Use medium brake pedal/foot effort to bring the vehicle to a complete stop from about 30 mph
(50 kph). Adjust your pedal/foot pressure so that the vehicle stopping time is 3-5 seconds.
c. Cool the brake system by driving at about 30 mph (50 kph) for approximately one minute without
stopping.
Page 1787
Print this page and keep it by your tire mounting equipment
Page 296
Type Of Standardized Relays (Part 2 Of 2)
Page 6476
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 2898
The customer may indicate the incident goes away after the car warms up (winter time). The cause
could be related to water freezing somewhere in the wiring/electrical system. There are two
methods to check for this. The first is to arrange for the owner to leave his car overnight. Make sure
it will get cold enough to demonstrate his complaint. Leave the car parked outside overnight. In the
morning, do a quick and thorough diagnosis of those electrical components which could be
affected. The second method is to put the suspect component into a freezer long enough for any
water to freeze. Reinstall the part into the car and check for the reoccurrence of the incident. If it
occurs, repair or replace the component.
Water Intrusion
The incident may occur only during high humidity or in rainy/snowy weather. In such cases, the
incident could be caused by water intrusion on an electrical part. This can be simulated by soaking
the car or running it through a car wash. Do not spray water directly on any electrical components.
Electrical Load
The incident may be electrical load sensitive. Perform diagnosis with all accessories (including A/C,
radio, fog lamps) turned on.
Cold or Hot Start Up
On some occasions an electrical incident may occur only when the car is started cold. Or it may
occur when the car is restarted hot shortly after being turned off. In these cases you may have to
keep the car overnight to make a proper diagnosis.
Ground Distribution Cell Codes
Page 2635
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5204
EGR Temperature Sensor: Connector Views
EGR Temperature Sensor (DTC: P1401)
EGR Temperature Sensor Circuit Connectors
Page 4527
Optional Splice
Example Diagrams
Page 2728
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 6255
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2636
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 643
Description
Description Chart
Wiring Diagram Codes (Cell Codes)
Use the chart to find out what each wiring diagram code stands for.
CODE ..................................................................................................................................................
................................ WIRING DIAGRAM NAME
A/C .......................................................................................................................................................
......................................................... Air Conditioner A/T ....................................................................
..............................................................................................................................................................
. A/T AAC/V .........................................................................................................................................
............................................................. IACV-AAC Valve ABS ...........................................................
................................................................................................................ Anti-Lock Brake System
(4WD ABS) ABS ..................................................................................................................................
......................................... Anti-Lock Brake System (2WD ABS) AP/SEN ..........................................
............................................................................................................................................... Absolute
Pressure Sensor ASCD .......................................................................................................................
......................................................... Automatic Speed Control Device AT/IND ..................................
..............................................................................................................................................................
.. A/T Indicator Lamp AUDIO ...............................................................................................................
.......................................................................................................... Audio BACK/L ...........................
..............................................................................................................................................................
................. Back-up Lamp BYPS/V .....................................................................................................
....................................................................... Vacuum Cut Valve Bypass Valve CHARGE ................
..............................................................................................................................................................
...................... Charging System CHIME .............................................................................................
............................................................................................................ Warning Chime CIGAR ..........
..............................................................................................................................................................
................................ Cigarette Lighter CKPS ......................................................................................
........................................................................................ Crankshaft Position Sensor (OBD) CMPS .
..............................................................................................................................................................
............................. Camshaft Position Sensor D/LOCK .......................................................................
............................................................................................................................. Power Door Lock
DTRL ...................................................................................................................................................
.................... Headlamp-With Daytime Light System ECTS ................................................................
............................................................................................................ Engine Coolant Temperature
Sensor EGR/TS ...................................................................................................................................
...................................................... ECE Temperature Sensor EGRC/V .............................................
................................................................................................................................................
EGRC-Solenoid Valve EGRC1 ............................................................................................................
................................................................................................ EGR Function ENGSS .......................
..............................................................................................................................................................
............. Engine Speed Signal F/PUMP ..............................................................................................
.................................................................................................................. Fuel Pump FICD ...............
..............................................................................................................................................................
........................... IACV-FICD Valve FRO2 ..........................................................................................
.............................................................................................. Front Heated Oxygen Sensor FRO2/H .
..............................................................................................................................................................
......... Front Heated Oxygen Sensor Heater FUEL ..............................................................................
...................................................................................................... Fuel Injection System Function
H/LAMP ...............................................................................................................................................
................................................................. Headlamp HEATER ...........................................................
.............................................................................................................................................. Heater
System
Page 3696
Page 7874
6. Tighten the adjusting nut so the torsion bar length corresponds with dimension "L", previously
measured during torsion bar removal. Tighten the
lock nut to specifications. If a new torsion bar spring or anchor arm is installed, tighten the adjusting
nut to the dimension indicated in the figure, then tighten the lock nut to specifications. Standard
length "L":
(2WD) = 54 mm (2.13 inch) (4WD) = 70 mm (2.76 inch)
7. Bounce vehicle with tires on ground (Unladen) to eliminate friction of suspension.
8. Measure vehicle posture "H".
a. Exercise the front suspension by bouncing the front of the vehicle 4 or 5 times to ensure that the
vehicle is in a neutral height attitude. b. Measure vehicle posture, i.e. dimension "H"
H = A - B mm (inch) "Unladen" Refer to Alignment Specification table.
9. If height of the vehicle is not within allowable limit, adjust vehicle posture.
10. Check wheel alignment if necessary.
Page 5806
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Drivetrain - Transfer Case Noise/Hard Shifting
Wheel Hub (Locking): Customer Interest Drivetrain - Transfer Case Noise/Hard Shifting
Classification: TF02-006a
Reference: NTB02-035a
Date: September 9, 2002
PATHFINDER, FRONTIER, XTERRA MANUAL TRANSFER CASE DIAGNOSIS
This bulletin amends NTB02-035. This version includes additional symptoms in the diagnostic
table. Please discard all paper copies of the earlier bulletin.
APPLIED VEHICLES: 1996 - 2002 Pathfinder (R50) - all equipped with Manual Transfer Case
(TX10A) 1998 - 2002 Frontier (D22) - with 4 wheel drive 2000 - 2002 Xterra (WD22) - with 4 wheel
drive.
SERVICE INFORMATION
If an Applied Vehicle has a noise, hard shifting, or dark oil in the transfer case, the transfer case
may be OK.
Before judging what repairs are needed, if any, refer to the information provided in the Transfer
Case Diagnostic Table for assistance in determining:
^ Symptom
^ Possible Cause, and
^ Service Information.
Page 1353
8. Take an average value from step 6 and compare it to the specifications.
If the measured value is below or at the low end of the specified value, perform the Steering Rack
Sliding Force Adjustment procedure (below).
Steering Rack Sliding Force Adjustment Procedure
1. Loosen the steering rack sliding force adjusting screw lock nut while holding the sliding force
adjusting screw (see Figure 5).
2. Tighten the sliding force adjusting screw slightly then re-tighten the lock nut while holding the
adjusting screw (see Figure 6).
3. Re-check the sliding force as outlined under the Steering Rack Sliding Force Measurement
procedure.
4. Repeat steps 1, 2 and 3 as necessary until the steering rack sliding force is at the high end of
the specification.
NOTE:
Page 9470
EL-TAIL/L-02 Parking, License, And Tail Lamps Wiring Diagram (Part 2 Of 2)
Circuit Diagrams
Parking, License And Tail Lamps (Part 1 Of 2)
Parking, License, And Tail Lamps (Part 2 Of 2)
Parking, License and Tail Lamps Circuit Connectors
Steering/Suspension - Wheel Alignment Info.
Technical Service Bulletin # 04-054C Date: 110406
Steering/Suspension - Wheel Alignment Info.
Classification: WT04-004C
Reference: NTB04-054C
Date: April 6, 2011
WHEEL ALIGNMENT INFORMATION
This bulletin has been amended to correct some typographical errors in SERVICE INFORMATION.
No other changes have been made. Discard all previous versions of this bulletin.
APPLIED VEHICLES: All Nissan - except GT-R
Warranty Claim Information: In order to properly document any warranty alignment claim, the
following item MUST be attached to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
IMPORTANT:
If you do not attach the above item to the Repair Order, the claim may be denied (rejected or
charged back).
ALSO: A copy of the yearly alignment machine calibration certification must be held on file in the
Service Dept.
General Information and Recommendations
SERVICE INFORMATION
^ When performing a wheel alignment it is important that you read and follow all of the instructions
supplied with your alignment equipment.
^ The information in this bulletin is not intended to be complete wheel alignment instructions.
^ Use the information in this bulletin as a supplement to the instructions for your equipment.
General Information and Recommendations
1. Four-Wheel Thrust Alignment should always be performed.
^ This type of alignment is recommended for all Nissan vehicles.
^ The four-wheel thrust process ensures that the vehicle is properly aligned, and helps ensure
proper "centering" of the steering wheel.
2. Use the right alignment machine.
^ You must use a quality alignment machine that will give accurate results when performing
alignment checks.
^ Refer to the Nissan TECH-MATE Service Equipment Catalog for recommended alignment
equipment.
^ The alignment rack itself should be capable of accepting any Nissan vehicle. The rack should be
checked to ensure that it is level.
3. Make sure the alignment machine is properly calibrated.
^ Your alignment equipment should be regularly calibrated in order to give accurate readings.
^ If any instrument that is part of the alignment machine is dropped or damaged, calibration should
be checked immediately.
^ Check with the manufacturer of your specific equipment for their recommended
service/calibration schedule.
NOTE:
In order to properly document any warranty alignment claim, the following item MUST be attached
to the Repair Order:
^ A copy of the alignment machine printout showing the BEFORE and AFTER alignment readings.
Page 5193
Ground Distribution
Testing and Inspection
Fog/Driving Lamp Switch: Testing and Inspection
Combination Switch/Check
Combination Switch Check
Page 6584
Torque Converter Clutch Solenoid: Connector Views
Torque Converter Clutch Solenoid Valve (DTC: P1775)
Torque Converter Clutch Solenoid Valve Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 6650
Lower And Upper Bodies Inspection
- Check to see that there are pins and retainer plates in lower body.
- Check to see that there are pins and retainer plates in upper body.
- Be careful not to lose these parts.
- Check to make sure that oil circuits are clean and free from damage.
- Check tube brackets and tube connectors for damage.
Separator Plates Inspection
- Check to make sure that separator plate is free of damage and not deformed and oil holes are
clean.
Overdrive cancel solenoid valve and torque converter clutch solenoid valve Check that filter is not clogged or damaged.
- Measure resistance.
Assembly 1. Install upper and lower bodies.
Page 7441
Component Parts And Harness Connector Location
Component Parts and Harness Connector Location
Page 3558
Camshaft Position Sensor: Diagnostic Aids
How to Follow This Flowchart
Work And Diagnostic Procedure
1. Work and diagnostic procedure
Start to diagnose a problem using procedures indicated in image, as shown in the following
example.
2. Measurement results
Required results are indicated as shown. These have the following meanings: Battery voltage -> 11
- 14 V or approximately 12 V Voltage: Approximately 0 V -> Less than 1 V Resistance: Continuity
should exist -> Approximately 0 Ohms
3. Cross reference of work symbols in the text and illustrations
Illustrations are provided as visual aids for work procedures. For example, symbol [A] indicated in
the left upper portion of each illustration corresponds with the symbol in the flowchart for easy
identification. More precisely, the procedure under the "CHECK POWER SUPPLY" outlined
previously is indicated by an illustration [A]
4. Symbols used in illustrations
Symbols included in illustrations refer to measurements or procedures. Before diagnosing a
problem, familiarize yourself with each symbol.
Direction Mark
Refer to "Connector Symbols"
Flow Chart Example
How To Follow Flow Chart In Trouble Diagnoses: Example
Page 6039
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Page 9610
Most windshield damage that occurs due to impact is easily identified as shown above.
Cracks can spread and become larger from the original strike point or crush mark due to:
^ Thermal stresses caused by temperature fluctuation
^ External physical stresses, such as hand touch, wind force, or vehicle vibration during driving (pot
holes)
A lead, or crack from one of the star cracked impact points can run to the edge of the glass and
appear to be a low stress crack starting from the glass outside edge.
Single crack beginning or ending at the edge of the glass
Single cracks must be inspected along the entire crack for impact marks.
^ If any impact mark is found anywhere along the crack, it indicates the damage occurred from an
object striking the windshield. This is not covered
under warranty.
Page 8950
EL-CHIME-02 Warning Chime (Part 2 Of 2)
Models Without Power Door Locks Circuit Diagrams
Warning Chime (Part 1 Of 2)
Models With Power Door Locks Circuit Connectors
Page 3687
Page 9390
Ground is supplied to terminal (16) of the combination meter through body grounds (M14) and
(M68). With power and ground supplied, the high beam head lamps and HI BEAM indicator
illuminate.
DAYTIME LIGHT OPERATION With the engine running, the lighting switch in the "OFF" or parking
lamp (1ST) position and parking brake released, power is supplied:
^ to daytime light control unit terminal (3)
^ through daytime light control unit terminal (6)
^ to terminal (M) of LH headlamp
^ through terminal (E) of LH headlamp
^ to daytime light control unit terminal (7)
^ through daytime light control unit terminal (8)
^ to terminal (M) of RH headlamp.
Ground is supplied to terminal (E) of RH headlamp through body grounds (E12) and (E54).
Because the high beam head lamps are now wired in series, they operate at half illumination.
Page 8014
TRANSFER CASE DIAGNOSTIC TABLE
Page 3230
Flow Chart
Connector and Terminal Pin Kit
Connector And Terminal Pin Kit
Use the connector and terminal pin kit listed below when replacing connectors or terminals. The
connector and terminal pin kit contains some of the most commonly used NISSAN connectors and
terminals.
How to Check Enlarged Contact Spring of Terminal
An enlarged contact spring of a terminal may create intermittent signals in the circuit. If the
intermittent open circuit occurs, follow the procedure below to inspect for open wires and enlarged
contact spring of female terminal.
1. Assemble a male terminal and approx. 10 cm (3.9 in) of wire.
Use a male terminal which matches the female terminal.
2. Disconnect the suspected faulty connector and hold it terminal side up.
3. While holding the wire of the male terminal, try to insert the male terminal into the female
terminal.
Do not force the male terminal into the female terminal with your hands.
Page 2834
Power Steering Pressure Switch: Electrical Diagrams
EC-PST/SW-01 Power Steering Oil Pressure Switch
Circuit Diagrams
Power Steering Oil Pressure Switch
Power Steering Oil Pressure Switch Circuit Connectors
Page 3741
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 5256
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 1406
SPECIAL TOOLS
Technical Service Bulletin # 00-037B Date: 010614
Steering - Pull/Drift
Classification: FA00-001b
Reference: NTB00-037b
Date: June 14, 2001 STEERING PULL DIAGNOSIS AND REPAIR (REVISED)
ATTENTION:
This bulletin has been revised.
Page 1103
Inspection Procedure
If the CONSULT cannot diagnose the system properly, check the items in the diagram.
Harness Connectors
^ All harness connectors have been designed to prevent accidental looseness or disconnection.
^ The connector can be disconnected by pushing or lifting the locking section.
CAUTION: Do not pull the harness when disconnecting the connector.
Standardized Relays
Page 9135
Sensors & relays Gently apply a slight vibration to sensors and relays in the system you are
inspecting. This test may indicate a loose or poorly mounted sensor or relay.
Engine Compartment There are several reasons a vehicle or engine vibration could cause an
electrical complaint. Some of the things to check for are:
^ Connectors not fully seated.
^ Wiring harness not long enough and is being stressed due to engine vibrations or rocking.
^ Wires laying across brackets or moving components.
^ Loose, dirty or corroded ground wires.
^ Wires routed too close to hot components.
To inspect components under the hood, start by verifying the integrity of ground connections. First,
check that the system is properly grounded. Then, check for loose connection by gently shaking
the wiring or components as previously explained. Using the wiring diagrams, inspect the wiring for
continuity.
Behind the instrument panel An improperly routed or improperly clamped harness can become
pinched during accessory installation. Vehicle vibration can aggravate a harness which is routed
along a bracket or near a screw.
Under Seating areas An unclamped or loose harness can cause wiring to be pinched by seat
components (such as slide guides) during vehicle vibration. If the wiring runs under seating areas,
inspect wire routing for possible damage or pinching.
Heat Sensitive
The owner's problem may occur during hot weather or after car has sat for a short time. In such
cases, you will want to check for a heat sensitive condition. To determine if an electrical component
is heat sensitive, heat the component with a heat gun or equivalent. Do not heat components
above 60° C (140° F). If incident occurs while heating the unit, either replace or properly insulate
the component.
Freezing
Page 7163
Brake Rotor/Disc: Service and Repair
REMOVAL AND INSTALLATION
1. Remove free-running hub assembly. 2. Remove brake caliper assembly without disconnecting
hydraulic line.
Be careful not to depress brake pedal, or piston will pop out. Make sure brake hose is not twisted.
3. Remove lock washer. - 4WD 4. Remove wheel bearing lock nut.
2WD: With suitable tool 4WD: With Tool
5. Remove wheel hub and wheel bearing.
Be careful not to drop outer bearing.
6. After installing wheel hub and wheel bearing, adjust wheel bearing preload.
DISASSEMBLY
Page 5929
Testing For "SHORTS" In The Circuit
Resistance check method
1. Disconnect the battery negative cable and remove the blown fuse. 2. Disconnect all loads (SW1
open, relay disconnected and solenoid disconnected) powered through the fuse. 3. Connect one
probe of the ohmmeter to the load side of the fuse terminal. Connect the other probe to a known
good ground. 4. With SW1 open, check for continuity.
Continuity: Short is between fuse terminal and SW1 (point A). No continuity: Short is further down
the circuit than SW1.
5. Close SW1 and disconnect the relay. Put probes at the load side of fuse terminal and a known
good ground. Then, check for continuity.
Continuity: Short is between SW1 and the relay (point B). No continuity: Short is further down the
circuit than the relay.
6. Close SW1 and jump the relay contacts with jumper wire. Put probes at the load side of fuse
terminal and a known good ground. Then, check
for continuity. Continuity: Short is between relay and solenoid (point C). No continuity: Check
solenoid, retrace steps.
Voltage Check Method
1. Remove the blown fuse and disconnect all loads (i.e., SW1 open, relay disconnected and
solenoid disconnected) powered through the fuse. 2. Turn the ignition key to the ON or START
position. Verify battery voltage at the B+ side of the fuse terminal (one lead on the B+ terminal
side of the fuse block and one lead on a known good ground).
3. With SW1 open and the DMM leads across both fuse terminals, check for voltage.
Voltage: Short is between fuse block and SW1 (point A). No Voltage: Short is further down the
circuit than SW1.
4. With SW1 closed, relay and solenoid disconnected and the DMM leads across both fuse
terminals, check for voltage.
Voltage: Short is between SW1 and the relay (point B). No Voltage: Short is further down the circuit
than the relay.
5. With SW1 closed, relay contacts jumped with fused jumper wire check for voltage.
Voltage: Short is down the circuit of the relay or between the relay and the disconnected solenoid
(point C). No Voltage: Retrace steps and check power to fuse block.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits.
Ground connections are often exposed to moisture,
Page 377
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 9238
correct test procedure. You may have to simulate vehicle vibrations while testing electrical
components. Gently shake the wiring harness or electrical component to do this.
OPEN A circuit is open when there is no continuity through a section of the circuit.
SHORT There are two types of shorts.
^ SHORT CIRCUIT When a circuit contacts another circuit and causes the normal resistance to
change.
^ SHORT TO GROUND When a circuit contacts a ground source and grounds the circuit.
NOTE: Refer to "HOW TO CHECK TERMINAL" to probe or check terminal.
Testing For "OPENS" In the Circuit
Before you begin to diagnose and test the system, you should rough sketch a schematic of the
system. This will help you to logically walk through the diagnosis process. Drawing the sketch will
also reinforce your working knowledge of the system.
Continuity check method The continuity check is used to find an open in the circuit. The Digital
Multimeter (DMM) set on the resistance function will indicate an open circuit as over limit (OL, no
beep tone or no ohms symbol). Make sure no power is supplied to the checked component. Always
start with the DMM at the highest resistance level. To help in understanding the diagnosis of open
circuits please refer to the image above.
1. Disconnect the battery negative cable. 2. Start at one end of the circuit and work your way to the
other end (At the fuse block in this example). 3. Connect one probe of the DMM to the fuse block
terminal on the load side. 4. Connect the other probe to the fuse block (power) side of SW1. Little
or no resistance will indicate that portion of the circuit has good
continuity. It there were an open in the circuit, the DMM would indicate an over limit or infinite
resistance condition (point A).
5. Connect the probes between SW1 and the relay. Little or no resistance will indicate that portion
of the circuit has good continuity. If there
were an open in the circuit, the DMM would indicate an over limit or infinite resistance condition
(point B).
6. Connect the probes between the relay and the solenoid. Little or no resistance will indicate that
portion of the circuit has good continuity. If
there were an open in the circuit, the DMM would indicate an over limit or infinite resistance
condition (point C).
Any circuit can be diagnosed using the approach in the above example.
Voltage check method To help in understanding the diagnosis of open circuits please refer to the
previous image. In any powered circuit, an open can be found by methodically checking the system
for voltage. This is done by switching the DMM to the voltage function.
1. Connect one probe of the DMM to a known good ground. 2. Begin probing at one end of the
circuit and work your way to the other end. 3. With SW1 open, probe at SW1 to check for voltage.
Voltage: Open is further down the circuit than SW1. No Voltage: Open is between fuse block and
SW1 (point A).
4. Close SW1 and probe at relay.
Voltage: Open is further down the circuit than the relay. No Voltage: Open is between SW1 and
relay (point B).
5. Close the relay and probe at the solenoid.
Voltage: Open is further down the circuit than the solenoid. No Voltage: Open is between relay and
solenoid (point C).
Any powered circuit can be diagnosed using the approach in the above example.
Testing For "SHORTS" In the Circuit
Page 5181
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Page 6375
Type Of Standardized Relays (Part 2 Of 2)
Page 4383
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 2562
Description (Part 2 Of 2)
Description Charts
CONNECTOR SYMBOLS
Connector Symbols
Most of connector symbols in wiring diagrams are shown from the terminal side.
^ Connector symbols shown from the terminal side are enclosed by a single line and followed by
the direction mark.
Page 5564
Measuring Voltage Drop - Step By Step
Measuring voltage drop - Step by step The step by step method is most useful for isolating
excessive drops in low voltage systems (such as those in "Computer Controlled Systems"). Circuits
in the computer controlled system operate on very low amperage. Computer controlled operations
can be adversely affected by any variation in resistance in the system. Such resistance variation
may be caused by poor connection, improper installation, improper wire gauge or corrosion. The
step by step voltage drop test can identify a component or wire with too much resistance.
Relationship between open/short (high resistance) circuit and the ECM pin control System
Description: When the switch is ON, the Engine Control Module (ECM) lights up the lamp.
Input-output Voltage Chart
*:If high resistance exists in the switch side circuit (caused by a single stand), terminal 1 does not
detect battery voltage. Control Unit does not detect the switch is ON even if the switch does turn
ON. Therefore, the Control Unit does not supply power to light up the lamp.
Page 6415
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 2570
dirt and other corrosive elements. The corrosion (rust) can become an unwanted resistance. This
unwanted resistance can change the way a circuit works. Electronically controlled circuits are very
sensitive to proper grounding. A loose or corroded ground can drastically affect an electronically
controlled circuit. A poor or corroded ground can easily affect the circuit. Even when the ground
connection looks clean, there can be a thin film of rust on the surface. When inspecting a ground
connection follow these rules:
1. Remove the ground bolt screw or clip. 2. Inspect all mating surfaces for tarnish, dirt, rust, etc. 3.
Clean as required to assure good contact. 4. Reinstall bolt or screw securely. 5. Inspect for
"add-on" accessories which may be interfering with the ground circuit. 6. If several wires are
crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are
clean, securely fastened and
providing a good ground path. If multiple wires are cased in one eyelet, make sure no ground wires
have excess wire insulation.
Voltage Drop Tests
Voltage drop tests are often used to find components or circuits which have excessive resistance.
A voltage drop in a circuit is caused by a resistance when the circuit is in operation. Check the wire
in the illustration. When measuring resistance with ohmmeter, contact by a single strand of wire will
give reading of 0 Ohms. This would indicate a good circuit. When the circuit operates, this single
strand of wire is not able to carry the current. The single strand will have a high resistance to the
current. This will be picked up as a slight voltage drop. Unwanted resistance can be caused by
many situations:
Undersized wiring (single strand example) Corrosion on switch contacts Loose wire connections or
splices.
If repairs are needed always use wire that is of the same or larger gauge.
Measuring voltage drop - Accumulated method
1. Connect the voltmeter across the connector or part of the circuit you want to check. The positive
lead of the voltmeter should be closer to
power and the negative lead closer to ground.
2. Operate the circuit. 3. The voltmeter will indicate how many volts are being used to "push"
current through that part of the circuit.
NOTE: In the illustration that there is an excessive 4.1 Volts drop between the battery and the bulb.
Page 1969
Valve Guide: Service and Repair
For information regarding the service and repair of this component, and the system that is part of,
please refer to Cylinder Head.
Page 4752
Norman Open, Normal Closed And Mixed Type Relays
Relays can mainly be divided into three types: normal open, normal closed and mixed type relays.
Type Of Standardized Relays (Part 1 Of 2)
Page 534
Ground Distribution
Page 3082
^ Some connectors do not have a notch above each terminal. To probe each terminal, remove the
connector retainer to make contact space for probing.
Male Terminal
Probing From Terminal Side - Male Terminal
Carefully probe the contact surface of each terminal using a "T" pin.
Do not bend terminal.
Waterproof Connector Inspection
If water enters the connector, it can short interior circuits. This may lead to intermittent problems.
Check the following items to maintain the original waterproof characteristics.
RUBBER SEAL INSPECTION
Most waterproof connectors are provided with a rubber seal between the male and female
connectors. If the seal is missing, the waterproof performance may not meet specifications. The
rubber seal may come off when connectors are disconnected. Whenever connectors are
reconnected, make sure the rubber seal is properly installed on either side of male or female
connector.
WIRE SEAL INSPECTION
The wire seal must be installed on the wire insertion area of a waterproof connector. Be sure that
the seal is installed properly.
Terminal Lock Inspection
Page 5980
Ground Distribution
Page 5127
Leak Detection Valve: Description and Operation
COMPONENT DESCRIPTION
The vacuum cut valve and vacuum cut valve bypass valve are installed in parallel on the EVAP
purge line between the fuel tank and the EVAP canister. The vacuum cut valve prevents the intake
manifold vacuum from being applied to the fuel tank. The vacuum cut valve bypass valve is a
solenoid type valve and generally remains closed. It opens only for on board diagnosis. The
vacuum cut valve bypass valve responds to signals from the ECM. When the ECM sends an ON
(ground) signal, the valve is opened. The vacuum cut valve is then bypassed to apply intake
manifold vacuum to the fuel tank.
Page 2289
4. While moving the connector, check whether the male terminal can be easily inserted or not.
^ If the male terminal can be easily inserted into the female terminal, replace the female terminal.
How to Probe Connectors
Connector damage and an intermittent connection can result from improperly probing of the
connector during circuit checks. The probe of a Digital Multimeter (DMM) may not correctly fit the
connector cavity. To correctly probe the connector, follow the procedures below using a "T" pin. For
the best contact grasp the "T" pin using an alligator clip.
Probing From Harness Side
Standard type (not waterproof type) connector should be probed from harness side with "T" pin.
^ If the connector has a rear cover such as a ECM connector, remove the rear cover before
probing the terminal.
^ Do not probe waterproof connector from harness side. Damage to the seal between wire and
connector may result.
Female Terminal
There is a small notch above each female terminal. Probe each terminal with the "T" pin through
the notch.
^ Do not insert any object other than the same type male terminal into female terminal.
Page 8380
PARTS INFORMATION
CLAIMS INFORMATION
NOTE:
This is the ONLY approved repair procedure for this incident. Claims to Nissan for the repair of this
incident may be denied if the repairs are not performed exactly as outlined in this bulletin.
Service Procedure
NOTE:
DO NOT REPLACE the front driver's or passenger's seat belt assemblies before first using the
Service Procedure in this bulletin to:
^ Replace the missing/broken retaining button(s), and
^ Clean the "D" rings and install the fluorine resin tape on both seat belt assemblies.
Replace Missing/Broken Retaining Button
1. Make sure the seat belt is not 'twisted' by sitting in the seat and latching the seat belt. If the belt
is twisted, correct this before beginning button replacement.
2. Determine the original retaining button position.
CAUTION:
It is important that the replacement button be positioned on the seat belt exactly where the original
button was placed at the factory.
Page 5200
Check for unlocked terminals by pulling wire at the end of connector. Unlocked terminal may create
intermittent signals in the circuit.
Loading Procedure
Loading Procedure
Loading Procedure
Consult Data Link Connector (DLC) Circuit
Consult Data Link Connector (DLC) Circuit
Inspection Procedure
Page 7956
Page 6451
Fluid Pump: Service and Repair
For information regarding the service and repair of this component, and the system that it is a part
of, please refer to Automatic Transmission/Transaxle; Service and Repair; Transmission Overhaul.
Page 4654
Switches are shown in wiring diagrams as if the vehicle is in the "normal" condition. A vehicle is in
the "normal" condition when:
^ ignition switch is OFF,
^ doors, hood and trunk lid/back door are closed,
^ pedals are not depressed, and
^ parking brakes is released.
DETECTABLE LINES AND NON-DETECTABLE LINES
In some wiring diagrams, two kinds of lines with different thicknesses are used to represent wires.
^ A line with regular thickness (wider line) represents a "detectable line for DTC (Diagnostic
Trouble Code)". A "detectable line for DTC" is a circuit in which (ECM) (Engine Control Module)
can detect malfunctions with the on board diagnostic system.
^ A line with less thickness (thinner line) represents a "non- detectable line for DTC". A
"non-detectable line for DTC" is a circuit in which ECM cannot detect malfunctions with the on
board diagnostic system.
MULTIPLE SWITCH
Mechanical Specifications
Wheel Bearing: Mechanical Specifications
Front
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload ...................................................
............................................................................................................ 7.06 - 20.99 N (1.59 - 4.72
lbs.) Return Angle ................................................................................................................................
......................................................................... 15 - 30°
TIGHTENING SPECIFICATIONS
Bearing Lock Nut:
Initial ....................................................................................................................................................
............................ 78 - 98 Nm (58 - 72 ft. lbs.) Final ............................................................................
............................................................................................ 0.5 - 1.5 Nm (4.3 - 13.0 inch lbs.)
Rear
SERVICE SPECIFICATIONS
Axial End Play .....................................................................................................................................
........................................................ 0 mm (0 inch) Bearing Preload [1]
............................................................................................................................................................
6.9 - 48.1 Nm (1.5 - 10.8 lbs.)
TIGHTENING SPECIFICATIONS
Bearing Cage To Baffle Plate
................................................................................................................................................ 54 - 74
Nm (40 - 54 ft. lbs.) Bearing Lock Nut
...........................................................................................................................................................
245 - 294 Nm (181 - 217 ft. lbs.)
[1]: At bearing cage bolt.
Page 3061
Description (Part 1 Of 2)
Page 6640
Transmission Position Switch/Sensor: Connector Views
Park/Neutral Position Switch (DTC: P1706)
Park/Neutral Position Switch Circuit Connectors
Super Multiple Junction (SMJ)-Terminal Arrangement
M65, E43 Super Multiple Junction Terminal Arrangement
Page 5030
^ Connector symbols shown from the harness side are enclosed by a double line and followed by
the direction mark.
^ Connector guides for male terminals are shown in black.
^ Connector guides for female terminals are shown in white.
Harness Indication
^ Connector numbers in a signal oval (M33) indicate harness connectors.
^ Letter designations next to test meter probes indicate harness (connector) wire colors.
Component Indication
^ Connector numbers in a double oval (F211) indicate component connectors.
SWITCH POSITIONS
Child Restraint - Top Tether Strap Anchor Installation
Child Restraint: Technical Service Bulletins Child Restraint - Top Tether Strap Anchor Installation
Classification: RS01-003
Reference: NTB01-052
Date: August 21, 2001
INSTALLATION OF ANCHOR BRACKET FOR CHILD RESTRAINT SYSTEM WITH A TOP
TETHER STRAP
APPLIED VEHICLE: All 1990 to 2000 MY Vehicles
SERVICE INFORMATION
Child restraint systems that use a top tether strap need to be secured to an anchor bracket.
^ Nissan provides an anchor bracket assembly as a genuine Nissan accessory for all 1990-2000
models that do not have a factory installed top tether strap anchor bracket.
^ Certain 2000 model year Nissan vehicles have a factory installed top tether strap anchor bracket.
^ All 2001 models incorporate a factory installed top tether strap anchor bracket.
SERVICE PROCEDURE
^ Check the Vehicle Owner's Manual and the anchor point in the vehicle to see if the anchor
bracket is factory installed. If the anchor bracket is not factory installed, order the part number
noted in the Parts Information section of this bulletin.
^ Refer to the Vehicle Owner's Manual section on Child Restraints for the location and the proper
installation procedure of the top tether strap anchor bracket.
^ Refer to the manufacturer's Owner's Manual of the child restraint system for further safety and
installation information.
PARTS INFORMATION
